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ball milled properties – Loulou Pizza

1 March, 2021
 

High-performance SiO x was scalable synthesized by means of simple high-energy ball-milling method and used as anode materials for lithium ion batteries. The electrochemical performance of SiO x electrode after high-energy ball-milling is improved effectively compared to raw SiO x..

Electrochemical Properties of Ball-Milled Zinc Hexacyanoferrate Cathode Material for Calcium Ion Batteries p.119 Evaluations of Absorption Materials Applied in the Noise Reduction Experiment and Simulation

2019/12/16 · Ball-milled 600 C bagasse biochar (BMBG600) showed the greatest Ni(II) adsorption capacity ( compared to 26-110 mmol/kg for unmilled biochar) and the adsorption was dosage and pH dependent

Magnetic properties of nanostructured ball-milled Fe and Fe50Co50 Nanostructured Fe and Fe50Co50 powders were prepared by high-energy ball milling. Microstructural and magnetic properties changes with milling time were Get

2019/04/03 · Ball-milled 600 C bagasse biochar (BMBG600) showed the greatest Ni(II) adsorption capacity ( compared to 26-110 mmol/kg for unmilled biochar) and the adsorption was dosage and pH dependent

We examined the catalytic effect of nanoparticle 3d-transition metals on hydrogen desorption (HD) properties of MgH 2 prepared by mechanical ball milling method. All the MgH 2 composites prepared by adding a small amount of nanoparticle Fe nano Co nano Ni nano and Cu nano metals and by ball milling for 2 h showed much better HD properties than the pure ball-milled

Besides materials synthesis high-energy ball milling is a way of modifying the conditions in which chemical reactions usually take place either by changing the reactivity of as-milled solids (mechanical activation — increasing

Abstract Laboratory experiments were conducted to study the fundamental geotechnical properties of mixtures of natural soils and its product after ball milling operation. The product after ball milling process is termed nano-soil herein.

We examined the catalytic effect of nanoparticle 3d-transition metals on hydrogen desorption (HD) properties of MgH 2 prepared by mechanical ball milling method. All the MgH 2 composites prepared by adding a small amount of nanoparticle Fe nano Co nano Ni nano and Cu nano metals and by ball milling for 2 h showed much better HD properties than the pure ball-milled

Geotechnical Properties of Soil-Ball Milled Soil Mixtures 379 Almost all basic geotechnical properties were mainly conducted in accordance to BS 1377 1990 2 in which the liquid limit was tested using the cone penetra-tion test.

TYJOUR T1Ga2O3 nanomaterials synthesized from ball-milled GaN powders AULee Jong Soo AUPark Kwangsue AUNahm Sahn AUKim Soo Won AUKim Sangsig PY2002/10/1 Y12002/10/1 N2Ga2O3

ball milled with AB (acetylene black Denka) by the weight ratio of 60 30 (wt ) at 200 rpm for 0.5 h in an Ar-filled container. For comparison a high-speed ball milling at 400 rpm for 4 h was also carried out. The obtained NCPC or

2020/03/02 · Ball-milling is considered as an economical and simple technology to produce novel engineered materials. The ball-milled microscale zero valent iron/pyrite composite (BM-ZVI/FeS 2) had been synthesized through ball-milling technology and applied for highly efficient sequestration of antimonate (Sb(V)) in aqueous solution.

Ball Milled Si-W Alloys Part I. Microstructural and Phase Evolution during Ball Milling To cite this article Yijia Liu et al 2019 J. Electrochem. Soc. 166 A1170 View the article online for updates and enhancements. This content

title = “Powder properties of hydrogenated ball-milled graphite” abstract = “Ball milling is an effective way of producing defective and nanostructured graphite. In this work the hydrogen storage properties of graphite ball-milled in a tungsten carbide milling pot under 3 bar hydrogen for various times (0-40 h) were investigated by TGA-Mass

2014/12/15 · Abstract Ball milling is an effective way of producing defective and nanostructured graphite. In this work the hydrogen storage properties of graphite ball-milled in a tungsten carbide milling pot under 3 bar hydrogen for various times (0–40 h) were investigated by TGA-Mass Spectrometry XRD SEM and laser diffraction particle

Structural and optoelectronic properties of as-synthesized SnO 2 nanowires were examined in this study. The SnO 2 nanowires were first synthesized by thermal evaporation of ball-milled SnO 2 powders in argon atmosphere without the presence of any catalysts and their structural properties are then investigated by X-ray diffraction

The room-temperature magnetic properties of ball-milled strontium hexaferrite particles consolidated by spark-plasma sintering are strongly influenced by the milling time. Scanning electron microscopy revealed the ball-milled SrFe 12 O 19 particles to have sizes varying over several hundred nanometers.

Magnetic properties of ball -milled TbFe 2 and TbFe 2B 171 are antiparallel and the net magnetic moment is domi-nated by the Tb moment. The magnetic moment per iron atom has been reported to be 1⋅64 µB.As in the case

Structural and magnetic properties of ball-milled Ni 11Co 11Fe 66Zr 7B 4Cu powders Ashish K. Baraskar 1 a Yajie Chen 1 Soack Dae Yoon 1 C. N. Chinnasamy 1 Nian Sun 1 Carmine Vittoria 1 Vincent G. Harris 1 Todd Heil 2 and Matthew Willard2

High-performance SiO x was scalable synthesized by means of simple high-energy ball-milling method and used as anode materials for lithium ion batteries. The electrochemical performance of SiO x electrode after high-energy ball-milling is improved effectively compared to raw SiO x..

The ball mill is a key piece of equipment for grinding crushed materials and it is widely used in production lines for powders such as cement silicates refractory material fertilizer glass ceramics etc. as well as for ore dressing of

ball-milled Mg and B powders using fine-grained boron powders. High maximum trapped fields of B0 D5 4 T were obtained at 12 K in one of the investigated trapped field magnets (height 8 mm) at the centre of the bulk surface 2 B

Journal of The Electrochemical Society Ball Milled Si-W Alloys Part I. Microstructural and Phase Evolution during Ball Milling To cite this article Yijia Liu et al 2019 J. Electrochem. Soc. 166 A1170 View the article online for

2018/04/25 · Structure and Electrochemical Properties of Ball‐Milled La 15 Fe 2 Ni 72 Mn 7 B 2 Al 2 Hydrogen Storage Alloys with Graphene Prof. Shucun Li Corresponding Author E-mail address qq 86 86

2006/07/21 · Magnetic properties of nanostructured ball-milled Fe and Fe 50 Co 50 alloy S Azzaza 1 S Alleg 1 H Moumeni 1 2 A R Nemamcha 3 J L Rehspringer 4 and J M Greneche 5 Published 21 July 2006 • IOP Publishing Ltd Journal of

ground by wet ball-milling in order to obtain submicron fine powder for low-temperature sintering. The effects on the properties of the milled powders of milling conditions such as ball size ball material chemical

Structure and Magnetic properties of ball milled nanostructure Iron and Nickel اعتبار موردنیاز ۱ تعداد صفحات ۱۰ تعداد نمایش خلاصه ۱۲۴ نظرات ۰ سال انتشار ۱۳۹۵ محل انتشار دهمین همایش مشترک و

2002/07/01 · Request PDF Magnetic properties of ball-milled Fe–Mn alloys BCC FCC and HCP phases in Fe–13.7wt Mn alloys were studied by Möss spectroscopy and X-ray diffraction after ball

Thermoelectric properties of high energy ball milled nano structured bismuth telluride (Bi₂Te₃) have been reported. By high energy ball milling alloyed bulk crystalline ingots crush into nanopowder and followed by spark plasma

Hexagonal boron nitride (h-BN) was ball-milled at various rotation speeds ( rpm) using a planetary ball-mill. Ball-milling disrupted the layered structure of the h-BN resulting in significant increases of surface area. Ball-milling at

Besides the ball Corresponding author Email address tula.jut mail.kmutt.ac.th Songklanakarin J. Sci. Technol. 40 (2) Mar.Apr. 2018 Original Article Structural properties of mechanically ball-milled porous silicon

ball milled with AB (acetylene black Denka) by the weight ratio of 60 30 (wt ) at 200 rpm for 0.5 h in an Ar-filled container. For comparison a high-speed ball milling at 400 rpm for 4 h was also carried out. The obtained NCPC or

Photophysical properties of ball milled silicon nanostructures † Ankit Goyal a Menno Demmenie a Chia-Ching Huang a Peter Schall a and Katerina Dohnalova a Author affiliations Corresponding authors a University of E-mail

2017/05/11 · With exceptional physicochemical properties carbon nanomaterials (CNMs) have been widely applied in various energy and environmental applications including energy conversion energy storage and environmental remediation. Recent efforts have been made to prepare modified CNMs with improved electrical and chemical properties

2017/08/25 · PDF On Aug 25 2017 K.John Joshua and others published Analysis of Ball Milled Aluminium Alloy 7068 Metal Powders Find read and cite all the research you need on ResearchGate Samples of Nb

GBM specializes in the design and manufacture of mining and mining equipment and sells it all over the world.

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ARTi Blog – Keep Updated on What We Have Been Doing

1 March, 2021
 

      ARTi Team Member Jill Foreman Introduces Biochar to None Other Than Shrimp ARTi Team member Jill Foreman has been working on a biochar project of her own…

        Biochar Clients Blog: Applications, Experiences, Suggestions and Results Using ARTi Biochar You may already know from our previous blog articles that ARTi works with a wide…

      Metzler Landscape Center  Metzler Forest Products in Reedsville, Pennsylvania offers a wide range of forestry related services that include timber harvesting and transport, in-woods chipping, custom chipping…

        Four Winds Farm *Note: This article originally published on July 6, 2020 has been updated on Nov. 17, 2020 to share new data on the progress…

        Biochar as a Consideration for Cost-Effective Small City Wastewater Treatment Joseph Sabas, Iowa State University In 2019 a team of Iowa State University engineering students including…

      Supercharge Your Soil: An Interview with Jeff Cox, Author of “Gardening with Biochar”  By Justin Beck                      …

        ARTi Biochar Researcher Profile Series: Periodically ARTi will feature articles on stand-out researchers and extensionists in biochar. The biochar field has seen a multitude of outstanding…

        Counting Your Chickens Before They Sequester Carbon and Aid in Water Runoff: Biochar from Poultry Litter By Justin Beck It is no mystery that the poultry…

      By Justin Beck and Shane McQuillan The City of Des Moines, Iowa and the tree planting and forestry advocacy non-profit Trees Forever represented by their member Kerri…

        By Justin Beck and Bernardo del Campo with Joseph Sabas, Samuel Kramer and Zubaida Al aswad Every summer we at ARTi have the good fortune of…

About ARTi

ARTi was founded by Iowa State University students in 2013 from multiple disciplines and nationalities. We develop and implement biorenewables technologies © Copyright 2020. All Rights Reserved.


Eco Char LLP | F6S

1 March, 2021
 


Free Download The Biochar Debate Charcoals Potential To Reverse Climate Change And Build …

2 March, 2021
 

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Hamlet residents: “We don't want to be crash test dummies” for facility that would process creosote …

2 March, 2021
 

Comment period ends March 3 for International Tie Disposal site, proposed for an environmental justice community

Barbara Brealy has attended Marks Creek Presbyterian Church in Hamlet all of her 80 years. Since last May, Brealy and her fellow 92 congregants — a third of them older than 65 — have attended Sunday services outside, forced out of their pews by the pandemic. The notion that they and future generations of churchgoers could be subjected to more than 100 tons of pollution from a proposed nearby facility did not sit well with her.

“The game lands, the farms, the birds, the yards of our people,” Brealy told state environmental regulators Monday night at a virtual public hearing on the air permit. “I’m thinking of the children, the people who will come after us.”

However, International Tie’s proposed manufacturing process, known as slow pyrolysis, emits pollutants; adding contaminated railroad ties to the recipe is controversial. The technology to remove the lingering creosote — a probable human carcinogen — from the ties is largely experimental on a commercial scale. The company contracted with a Colorado firm, Biochar Now, to run emissions tests, which were  conducted on just three kilns of clean wood last year. As for creosote-treated railroad ties, the only test cited in International Tie’s air quality permit application was for one kiln; it was conducted five years ago.

International Tie’s plant, which would be located adjacent to the CSX rail yard and near the church, would release hazardous air pollutants, including carbon monoxide, nitrogen oxides and particulate matter, all of which can harm human health. Dust from loading and unloading, and fumes from truck traffic are also expected to be emitted into the air.

At a virtual public hearing Monday night, Richmond County residents, including the Hamlet City Manager, pleaded with state environmental officials to deny the draft air permit for International Tie Disposal, rebutting economic developers’ and company officials’ assurances that the facility would benefit the community.

Hope and Lonnie Norton live near the church and about six-tenths of a mile from the proposed site. “This impacts us in a real and direct way,” Hope Norton said. “These industries always find their way into low-income communities. We are the path of least resistance. This is a new process with very little data. We’ll simply serve as an example to others of what not to do.”

International Tie Disposal did amend its application to address some community concerns. Basil Polivka II told state regulators that the railroad ties would not be stockpiled in the open. And the diesel-powered tie chopper, instead of being outdoors, would be enclosed in shipping containers and run on electricity. The shipping containers would also contain baffling to reduce noise.

Yet these changes don’t reduce emissions coming from the smokestacks. The state’s Division of Air Quality is requiring monitoring and stack testing, but not air dispersion modeling. Such data would be important because it could help predict how the pollutants move through the neighborhood. DAQ justified the lack of air dispersion modeling on estimates that toxic pollution rates would fall well below permitted thresholds.

That’s not to say there are no toxic pollutants. There are 37 separate compounds listed in the air permit — formaldehyde and chlorine, among them — albeit in extremely small amounts.

“It’s irresponsible and unethical to allow this facility to be built and then measure pollution we’re exposed to,” said Chad Gardner, who lives with his family near the proposed site. “We can’t physically stand any more pollution in his concentrated area.” His wife, Lisa Gardner, likened the community to “crash test dummies,” subjects of an environmental experiment.

The census block where International Tie would be built is home to 2,323 people, according to DEQ’s Community Mapping System. More than a third are Black, Latinx or American Indian; 62% of the households are low-income, many earning less than $15,000 a year. The census block has higher rates than the state average of deaths from heart disease, stroke, cancer, diabetes, as well as elevated infant death and child mortality rates. Rates of hospitalizations related to asthma are also above the state average. Several polluting industries are near the proposed International Tie plant, including the Enviva wood pellet plant across the road, as well as the railroad itself.

Therese Vick, research director for the Blue Ridge Environmental Defense League, criticized state regulators for failing to fully account for environmental justice issues in Hamlet. “It’s incumbent on you to do everything you can to protect this community,” Vick said. “Once emissions are released in the community, you can’t bring them back.”

The hearing also revealed fractures within city and county government over the proposal. Richmond County Commissioners had approved a rezoning of the property from agricultural to industrial, which allowed International Tie to locate there; that rezone is now being challenged in superior court. If opponents of the rezone win, then the Division of Air Quality could not issue the permit, at least for the facility to be located on that tract.

Hamlet City Manager Matt Christian emphasized that the town was excluded from discussions about International Tie. “Any other claim is patently false,” Christian said.

Christian noted that the town’s drinking water supply, Water Lake, is a half-mile from the proposed facility. Any environmental harm to the lake would threaten the town’s duty to provide public services, he said.

“Its environmental impacts will be minimal,” Butler said. Denying the air permit would “deny the county economic benefits,” she said, including additional business for rail and trucking.

Ann Wheeler, who lives near the proposed site, said the potential economic benefits don’t outweigh the public health threats. “No job matters if you lose your life,” Wheeler said. “I ask you, would you want your family to go to sleep beside this company tonight?”

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Aluminum Alloy Wheels Market 2021 Outlook | Witnessing Enormous Growth with Recent Trends …

2 March, 2021
 

Global Aluminum Alloy Wheels Market Overview:

Global Aluminum Alloy Wheels Market presents insights on the current and future industry trends, enabling the readers to identify the products and services, hence driving the revenue growth and profitability. The research report provides a detailed analysis of all the major factors impacting the market on a global and regional scale, including drivers, constraints, threats, challenges, opportunities, and industry-specific trends. Further, the report cites global certainties and endorsements along with downstream and upstream analysis of leading players. The research report comes up with the base year 2020 and the forecast between 2021 and 2026.

This report covers all the recent development and changes recorded during the COVID-19 outbreak.

This Aluminum Alloy Wheels market report aims to provide all the participants and the vendors will all the details about growth factors, shortcomings, threats, and the profitable opportunities that the market will present in the near future. The report also features the revenue share, industry size, production volume, and consumption in order to gain insights about the politics to contest for gaining control of a large portion of the market share.

Request Sample Report @ https://www.marketreportsinsights.com/sample/27781

Top Key Players in the Aluminum Alloy Wheels Market:
Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold, Kina, The Biochar Company, Swiss Biochar GmbH, ElementC6, BioChar Products, BlackCarbon, Cool Planet, Carbon Terra, Pacific Biochar, Vega Biofuels, Liaoning Jinhefu Group, Hubei Jinri Ecology-Energy, Nanjing Qinfeng Crop-straw Technology, Seek Bio-Technology (Shanghai)

The Aluminum Alloy Wheels Industry is severely competitive and fragmented due to the existence of various established players taking part in different marketing strategies to increase their market share. The vendors operating in the market are profiled based on price, quality, brand, product differentiation, and product portfolio. The vendors are turning their focus increasingly on product customization through customer interaction.

Major Types of Aluminum Alloy Wheels covered are:
Wood Source Biochar
Corn Stove Source Biochar
Rice Stove Source Biochar
Wheat Stove Source Biochar
Other Stove Source Biochar

Major end-user applications for Aluminum Alloy Wheels market:
Soil Conditioner
Fertilizer
Others

Aluminum Alloy Wheels

Regional Analysis For Aluminum Alloy Wheels Market

North America (the United States, Canada, and Mexico)
Europe (Germany, France, UK, Russia, and Italy)
Asia-Pacific (China, Japan, Korea, India, and Southeast Asia)
South America (Brazil, Argentina, Colombia, etc.)
The Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

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Points Covered in The Report:

Reasons for Buying Global Aluminum Alloy Wheels Market Report:

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Science Blog: Biochar – The black diamond for tomorrow's rehabilitation in mine closure? | GTK

2 March, 2021
 

Collaboration between the Geological Survey of Finland (GTK), Natural Resources Institute Finland (Luke) and the University of Oulu has aimed at promoting the “greener” closure of extractive waste facilities. The EDRF-funded Biopeitto project (“Utilization of biochar in the cover of extractive waste materials and landscaping”) investigated the effects of biochar on the water management, geochemistry and carbon and nutrient balance of the multilayer dry cover of extractive waste facilities. The key questions for the study were as follows: (1) Can the addition of biochar to the upper cover structure improve rehabilitation by boosting plant growth? (2) Does biochar affect the leachate and the physical properties of the cover structure?

Biochar

Biochar is by definition carbonised biomass obtained from sustainable sources and sequestered in soils to sustainably enhance their environmental or agricultural value under present and future management (Biochar for Sustainable Soils 2021). It is a charcoal-like material, but unlike charcoal, it is produced using a process called pyrolysis, in which organic material is burned in a container in a nearly oxygen-free atmosphere. During the process, the organic material is converted into biochar, a stable form of carbon. Biochar is a black, highly porous material and has a large surface area. Depending the success of the pyrolysis, approximately 80–90% of its composition could be carbon. The remaining percentage consists of nitrogen, hydrogen and other elements. Biochar’s chemical composition varies depending on the source material and methods used to make it (Regeneration International 2018).

Biochar is able to adsorb and immobilize heavy metals and organic chemicals and prevent nitrate leaching into waterways, as well as reduce N2O and CH4 emissions from soils (Biochar for Sustainable Soils 2021). However, the properties of biochar vary widely and are particularly affected by the raw material, the production temperature and the post-processing (e.g., Fe salts, phosphoric acid or potassium hydroxide). The grain size of biochar also plays an important role. For instance, a larger grain size is better for improving soil ventilation, whereas fine-grained biochar has a greater surface area to bind metals and serve as a substrate for microbes.

Biopeitto

In the Biopeitto project, the behaviour of the cover structure for extractive waste materials was investigated in tabletop column experiments under laboratory conditions and in pot experiments under greenhouse conditions. The column experiments were conducted to examine the long-term chemical stability of mining wastes and the effects of biochar on mine waste and till-cover geochemistry. This was done to monitor both the positive and negative effects of the biochar itself (Lahtinen 2020).

 

Biochar produced from four source materials was tested: Norway spruce (Picea abies), common silver birch (Betula pendula), waste wood chips from the construction industry and composted sewage sludge from a municipal waste facility. The biochar was sieved to a grain size of under 2 mm and mixed with till in three proportions: 1%, 5% and 10%. After the first test batch, the biochar produced from spruce was selected for an on-site lysimeter test with a 5 vol% ratio of the biochar in the upper 10 cm of the dry cover.

Column test materials

The aims of the greenhouse pot tests included examination of the effect of biochar produced from Norway spruce and common silver birch, dried waste paper sludge and composted sewage sludge mixed with tailings and till as a growth medium. The results suggest that forest till soil and biochar are the most suitable growth media for dry cover systems to be used on mine tailings when added with compost or another nitrogen source (Heiskanen et al. 2020).

A field study was carried out in the tailings area of the closed Rautuvaara mine in Kolari, where lysimeter and grid tests were performed to observe the effect of biochar on the leachate of cover solutions and the behaviour of various plants under northern climatic conditions. The addition of biochar was not found to have a direct effect on the leachate of the lysimeters, but the thickness of the cover layer was an essential factor influencing the amount of oxygen and water content of the cover layer, as well as its temperature and erosion resistance. The addition of biochar to the cover structure medium improved plant growth and water management, as well as the carbon and nutrient balance of herbaceous plants in particular. The results of the column and greenhouse pot tests, as well as the lysimeter and grid tests, were published in the project’s final report (Pietilä et al. 2020, in Finnish).

 

The project used HYDRUS-1D software to assess the water balance of the cover structure, while the Coop Model was used to assess the impact of different material ratios (tailings, till, biochar, compost) and climatic conditions on the water and temperature economy of the soil profile, as well as long-term plant success (Liwata-Kenttälä et al. 2020).

In the early phase of the project, a Webropol survey concerning cover solutions and biochar was carried out amongst mining operators, researchers, consultants and environmental authorities in Finland and Sweden. The project aimed to address the challenges identified in the survey, in particular the lack of research data and problems in accessing information. The results of the survey were published in a separate report, in which various cover materials and structures were also reviewed (Koivuhuhta et al. 2018).

Kierroksia biopeittoon

Research into the long-term effects of biochar in extractive waste facilities is continuing in collaboration with Luke in the new Kierroksia biopeittoon project (“Regional circular-economy promoting co-operation and bio-cover practices in Arctic mine tailings”). The main object is still the rehabilitation and landscaping of mine waste facilities by using organic material (biochar and ash). In addition, the accumulation of metals in cover vegetation will be further investigated. One of the new aims is to develop regional operation models for the processing, transportation and use of by-products/wastes in mining waste covers and to assess the legislation concerning the utilization of biochar in cover structures.

More efficient use of organic by-products is essential in a bio- and circular economy that seeks to mitigate climate change. The use of biochar locally produced from the by-products of various local industries will promote the circular economy. The use of biochar can also be justified by improving the region’s carbon balance, as some of the carbon from organic material is stored in the soil over a long period of time, from tens to hundreds of years based on international studies.

References

Biochar for Sustainable Soils. What is biochar? Referred 10.2.2021. Available at: https://biochar.international/the-biochar-opportunity/what-is-biochar/

Heiskanen, J., Hagner, M., Ruhanen, H. & Mäkitalo, K. 2020. Feasibility of biochar, compost and fiber clay in the growth medium layer of the cover system of mine tailings: A growing test in a greenhouse. Wiki article manuscript.

Koivuhuhta, A., Nuottimäki K. & Tornivaara, A. (toim.) 2018. Kaivannaisjätealueiden peittomateriaalivalinnan koerakenteet ja –järjestelyt. Kirjallisuusselvitys. Geologian tutkimuskeskus työraportti 79/2018. Available at: http://tupa.gtk.fi/raportti/arkisto/79_2018.pdf

Lahtinen, T. 2020.  Unstandardized tabletop scale column experiments. Wiki article manuscript.

Liwata-Kenttälä, P., Mäkitalo, K. & Nuottimäki, K. 2020. Water balance and temperature modelling in tailings cover layer – case Rautuvaara / project Biopeitto. Wiki article manuscript.

Pietilä, R. (toim.), Hagner, M., Heiskanen, J., Juutinen, M., Lahtinen, T., Liwata-Kenttälä, P., Mäkitalo, K., Nuottimäki, K., Peltola, R., Ruhanen, H., Sarala, P., Seitsaari, M., Tornivaara, A. & Uusitalo, M. 2020. Biopeitto-projekti. Biohiilen hyödyntäminen kaivannaisjätteiden peittomateriaaleissa ja viherrakentamisessa. GTK:n tutkimustyöraportti 51/2020. Available at:  https://tupa.gtk.fi/raportti/arkisto/51_2020.pdf

Regeneration International. What is Biochar? Referred 10.2.2021. Available at: https://regenerationinternational.org/2018/05/16/what-is-biochar


Text:
Raija Pietilä and Anna Tornivaara

Raija Pietilä is a geologist in the Environmental Solutions Unit in Rovaniemi. She was a manager of the Biopeitto project and also works in the “Kierroksia biopeittoon” project. Her research topics are focused on mining environments and groundwater and soil geochemistry.

Anna Tornivaara is a Research Scientist in the Circular Economy Solutions Unit. Her research topics are focused on mining environments and include project management. Recently, she has been involved in remediation and risk assessment projects on closed mine sites and she is the “Kierroksia biopeittoon” project manager.

 

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olivia on Twitter: "Biochar is a new and cool catalyst that can be used in transesterification …

2 March, 2021
 

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Biochar Market Industry Analysis, Trend and Growth, 2021-2025

2 March, 2021
 

“The study includes a complete description of the Biochar Market basic overview, current market status, sector scale, and sales and volume parameters of the Global Biochar market. The Biochar Market report also includes major insights into the sector’s geographic landscape and the businesses that have a leading role in the Global Biochar business. In addition to their growth strategy, product portfolio, market revenues and other information, this report includes the status of the prominent players operating in the Biochar market. An effective assessment of many industry verticals is also included in the Biochar Market research.

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The Biochar Market report focuses primarily on growth prospects, key players, future projections, key markets, and patterns in the industry. Various key regions such as Europe, Asia Pacific, Southeast Asia, North America, and Central & South America are comprehensively offered in the Biochar study. In addition, the Biochar research studies the present and potential market positions on the basis of market goods worldwide in terms of sales. For number of geographical areas, the Biochar study also provides a forecast timeframe based on the projected CAGR. The Biochar also includes a detailed and accurate price estimate of goods that is thoroughly measured in the article.

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Moreover, with the aid of business strategies, the Biochar study also explains the shifting market conditions. The main sectors are ranked and classified according to their market shares in the Biochar market. The Biochar study also contains some key competition variables that are critical for the market to consider complex market conditions. This research is widely explained in order to provide industry analysis into the industry profiles of leading players as well as established firms. Similarly, in the Biochar study paper, industry to product and business to company classifications are also included.

Market segment by Type, the product can be split into
Wood Source Biochar, Corn Stove Source Biochar, Rice Stove Source Biochar, Wheat Stove Source Biochar, Other Stove Source Biochar

Market segment by Application, split into
Soil Conditioner, Fertilizer, Others

Leading suppliers operating in the Biochar industry in multiple regions were thoroughly established during the preparation of the study, and their geographic presence, products, and distribution networks were analyzed through detailed analysis. In addition to this, to understand the geographic and global business scale, top-down as well as bottom-up methods have been adopted. By consultations with predictors and analysis methodologies, other individual market sizes have also been estimated. This study also contains the review of the leading business vendors’ financial and annual results and their discussions with many industry experts such as quantitative and qualitative market research.

Browse the complete report @ http://www.orbischemreports.com/global-biochar-market-production-sales-and-consumption-status-and-prospects-professional-market-research-report-and-forecast-2025/103103/?utm_source=Yogesh

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Plant closure sends more biosolids to Hartland Landfill

2 March, 2021
 

Aerial view of the Capital Regional District residuals treatment facility at Hartland Landfill where residual solids are turned into Class A biosolids. (Photo courtesy CRD)

Saanich residents are reiterating their concerns after a workplace safety closure at a Richmond cement plant has caused months worth of biosolids to be redirected to the Hartland Landfill.

The disposal of biosolids, or processed human waste, has been at the heart of a decade-long debate in Greater Victoria. In 2011, following public concern, the Capital Regional District (CRD) banned the land application of biosolids. But last year, after discovering the Lafarge cement plant – where biosolids are now normally shipped – closes for four to six weeks a year, the CRD reversed its ban to allow for biosolids (700 tonnes) to be spread at the Hartland Landfill during that period of time.

At the time, there was significant opposition to the plan by people concerned about possible water and air contamination and who criticized the CRD for coming up with a “quick fix” rather than looking for more sustainable options.

But no one was given the chance to oppose the latest spreading of biosolids as the decision was never made public. Biosolids have been getting redirected to the Hartland Landfill since late November when a workplace death closed the Lafarge plant. CRD senior manager of the environmental protection division Glenn Harris said they expect Lafarge will start receiving the biosolids again by the end of March. In that case, Hartland will have spread biosolids on the landfill for approximately four months – four times what it allotted for in a year.

Whether that could pose any kind of risk to human or environmental health is up for debate. The Class A biosolids being spread are the result of human waste undergoing several treatment processes in accordance with provincial standards. The landfill is using them as a “nutrient additive” to improve vegetation growth in reforested areas and as a biocover to reduce methane emissions. Indeed, in many places, biosolids are used as fertilizer on agricultural land.

But, critics point out the potential impacts of many of the substances present in biosolids are not well understood yet. All manner of chemicals, pharmaceuticals, hormones, pathogens, bacteria and heavy metals end up down the toilet alongside human waste. Often, these substances are present in such small quantities that researchers have determined they don’t pose a threat to human or environmental health, but B.C. provincial standards don’t require the waste industry to test for all of them.

“Hartland is one of the least desirable places to do it (spread biosolids) because if there are problems there are residences quite close, there are farms, there are schools and also it’s the headwaters for Todd Creek,” said Hugh Stephens, vice-chair of the Mount Work Coalition.

But, as University of Victoria civil engineering professor Caetano Dorea pointed out, a landfill is about the safest place biosolids could be put. Dorea said landfills are already engineered to keep toxic substances – namely leachate – in. If groundwater was being contaminated, he said, the worry would be about the design of the landfill, not the biosolids sitting on it.

There have been a number of leaks at Hartland though, so it is possible future ones could include biosolids. Really, Stephens said, a main problem is the location of the landfill.

“It’s not in the middle of nowhere, it’s in a recreational area,” he said.

Still, Dorea said, if the landfill is running properly the risk of contamination is very low. He said it’s important that people are concerned, but warns against the “not in my backyard effect.” Human waste has to go somewhere.

Stephens argued there are better ways to be disposing of the biosolids though. He suggested spreading them in remote areas, like the District of Nanaimo does, or sending them to a biochar plant. At the very least, he said, the public should be aware of what’s going on and should be given a chance to intervene.

CRD sewageSaanich


Fine Biochar Powder Market Size, Future Forecast, Key Manufactures and Competitors Analysis …

2 March, 2021
 

Overview Of Fine Biochar Powder Market

The Fine Biochar Powder Market report presents the comprehensive analysis of key market segments and sub-segments, evolving the Fine Biochar Powder Market trends and dynamics, changing supply and demand scenarios, Quantifying market opportunities through market sizing and market forecasting, Tracking current trends/opportunities/challenges, competitive insights, opportunity mapping in terms of technological breakthroughs.

The report also presents the market competition landscape and a corresponding detailed analysis of the major vendor/manufacturers in the market. The key manufacturers covered in this report: Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels

Get a Sample PDF Report: http://marketresearchvision.com/request-sample/548185

Segment by Type, the Fine Biochar Powder market is segmented into
Wood Source Biochar
Corn Source Biochar
Wheat Source Biochar
Others

Segment by Application, the Fine Biochar Powder market is segmented into
Soil Conditioner
Fertilizer
Others

The research report displays growth opportunities over the forecast period, while also highlighting the market drivers, constraints, threats, challenges, competitive landscape, and other key aspects, such as the supply chain with regards to the global market.

The prime objective of this Fine Biochar Powder report is to define the size of the different segments and the geographies as well as to forecast the trends that are likely to gain traction in the following couple of years. This research report has been designed to incorporate both the qualitative and quantitative aspects of the industry within each of the regions.

This report also splits the market by region: Americas, United States, Canada, Mexico, Brazil, APAC, China, Japan, Korea, Southeast Asia, India, Australia, Europe, Germany, France, UK, Italy, Russia, Spain, Middle East & Africa, Egypt, South Africa, Israel, Turkey, GCC Countries

With all these analyses and information, this report can act as a valuable guide to readers looking to gain a clear understanding of all the factors that are influencing the market for Fine Biochar Powder market at present and are projected to remain to do so over the forecast period.

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Additionally, the information on the latest developments in this Fine Biochar Powder market, both, at the global as well as regional level, is expected to enhance the decision-making capability of the reader. Up-to-date information on various specifications, buyer analysis, their purchasing volume, prices, and price analysis, and deep insights on the leading suppliers have also been provided in this study for the readers.

Research objectives:-

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Global Biochar Fertilizer Market Analysis 2020 With Top Companies, Production, Consumption …

2 March, 2021
 

By ReportMines.com

Global Biochar Fertilizer Market Analysis 2020 With Top Companies, Production, Consumption,Price And Growth Rate Story

105

$ 2760

Global Biochar Fertilizer Market Report report is categorised based on following features:

1. Global Market Players

2. Geopolitical regions

3. Consumer Insights

4. Technological advancement

5. Historic and Future Analysis of the Market


Fine Biochar Powder Market Size, Future Forecast, Key Manufactures and Competitors Analysis …

2 March, 2021
 

Overview Of Fine Biochar Powder Market

The Fine Biochar Powder Market report presents the comprehensive analysis of key market segments and sub-segments, evolving the Fine Biochar Powder Market trends and dynamics, changing supply and demand scenarios, Quantifying market opportunities through market sizing and market forecasting, Tracking current trends/opportunities/challenges, competitive insights, opportunity mapping in terms of technological breakthroughs.

The report also presents the market competition landscape and a corresponding detailed analysis of the major vendor/manufacturers in the market. The key manufacturers covered in this report: Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels

Get a Sample PDF Report: http://marketresearchvision.com/request-sample/548185

Segment by Type, the Fine Biochar Powder market is segmented into
Wood Source Biochar
Corn Source Biochar
Wheat Source Biochar
Others

Segment by Application, the Fine Biochar Powder market is segmented into
Soil Conditioner
Fertilizer
Others

The research report displays growth opportunities over the forecast period, while also highlighting the market drivers, constraints, threats, challenges, competitive landscape, and other key aspects, such as the supply chain with regards to the global market.

The prime objective of this Fine Biochar Powder report is to define the size of the different segments and the geographies as well as to forecast the trends that are likely to gain traction in the following couple of years. This research report has been designed to incorporate both the qualitative and quantitative aspects of the industry within each of the regions.

This report also splits the market by region: Americas, United States, Canada, Mexico, Brazil, APAC, China, Japan, Korea, Southeast Asia, India, Australia, Europe, Germany, France, UK, Italy, Russia, Spain, Middle East & Africa, Egypt, South Africa, Israel, Turkey, GCC Countries

With all these analyses and information, this report can act as a valuable guide to readers looking to gain a clear understanding of all the factors that are influencing the market for Fine Biochar Powder market at present and are projected to remain to do so over the forecast period.

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Additionally, the information on the latest developments in this Fine Biochar Powder market, both, at the global as well as regional level, is expected to enhance the decision-making capability of the reader. Up-to-date information on various specifications, buyer analysis, their purchasing volume, prices, and price analysis, and deep insights on the leading suppliers have also been provided in this study for the readers.

Research objectives:-

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Sustainability | Free Full-Text | Evaluating the Effects of Biochar with Farmyard Manure under …

2 March, 2021
 

Find support for a specific problem in the support section of our website.

Please let us know what you think of our products and services.

Visit our dedicated information section to learn more about MDPI.

Figure 1

Rehman, I.; Riaz, M.; Ali, S.; Arif, M.S.; Ali, S.; Alyemeni, M.N.; Alsahli, A.A. Evaluating the Effects of Biochar with Farmyard Manure under Optimal Mineral Fertilizing on Tomato Growth, Soil Organic C and Biochemical Quality in a Low Fertility Soil. Sustainability 2021, 13, 2652. https://doi.org/10.3390/su13052652

Rehman I, Riaz M, Ali S, Arif MS, Ali S, Alyemeni MN, Alsahli AA. Evaluating the Effects of Biochar with Farmyard Manure under Optimal Mineral Fertilizing on Tomato Growth, Soil Organic C and Biochemical Quality in a Low Fertility Soil. Sustainability. 2021; 13(5):2652. https://doi.org/10.3390/su13052652

Rehman, Iqra; Riaz, Muhammad; Ali, Sajid; Arif, Muhammad S.; Ali, Shafaqat; Alyemeni, Mohammed N.; Alsahli, Abdulaziz A. 2021. “Evaluating the Effects of Biochar with Farmyard Manure under Optimal Mineral Fertilizing on Tomato Growth, Soil Organic C and Biochemical Quality in a Low Fertility Soil” Sustainability 13, no. 5: 2652. https://doi.org/10.3390/su13052652

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Earthworm-biochar interactions: A laboratory trial using Pontoscolex corethrurus – ScienceDirect

2 March, 2021
 

Biochar did not negatively affect P. corethrurus even at the highest dose (10% w/w).

Py-GC–MS detected various pyrolysis-produced biomarker compounds in the biochar.

Biochar in casts shows novel chemical fingerprints and a structural breakdown.

Passage through earthworm guts promotes biochar functionalization.

Earthworm biological roles should be considered in field biochar application.

Biochar did not negatively affect P. corethrurus even at the highest dose (10% w/w).

Py-GC–MS detected various pyrolysis-produced biomarker compounds in the biochar.

Biochar in casts shows novel chemical fingerprints and a structural breakdown.

Passage through earthworm guts promotes biochar functionalization.

Earthworm biological roles should be considered in field biochar application.

Biochar application can improve soil quality, but at high rates may cause negative effects on soil organisms such as earthworms. Conversely, as ecosystem engineers and catalysts of microbial activity, earthworms can also affect soil quality and interact with biochar, though little is known concerning endogeic earthworm species interactions with biochar. Hence, a standard ecotoxicological laboratory trial was undertaken to assess the impact of Brazil-nut husk biochar application (0, 2.5, 5 and 10% w/w) on the endogeic cosmopolitan species Pontoscolex corethrurus, and the effects of bioturbation and gut passage on biochar chemical characteristics (assessed using pyrolysis coupled with gas chromatography and mass spectrometry) and morphology (evaluated using scanning electron microscopy). Biochar addition up to 10% w/w had no negative effects on P. corethrurus, and ingested biochar particles showed signs of physical degradation and bacterial colonization. Nine chemical biomarkers (mainly aromatic compounds) were detected that can be used as indicators of biochar presence in soils and earthworm castings. Earthworm casts showed distinct macromolecular chemical signatures compared with uningested artificial soil with and without biochar. Earthworm bioturbation and biochar ingestion may have important effects on functionalization and biochar chemical and physical properties that should be considered in field applications, especially where endogeic biochar-consuming species are present.


Biochar Market 2021 Will Reflect Significant Growth in Future with Size, Share, Growth, and Key …

2 March, 2021
 

Industry Growth Insights (IGI) has recently updated the Biochar Market report which now also includes the COVID-19 impact on the market during the forecast period 2020-2027. The report offers a comprehensive assessment of the future market scenario, drivers, challenges, restraints, and opportunities that are going to shape the market.

Although the coronavirus pandemic has upheaval the picture of the market, it had persuaded the industry players to adopt creative strategies that helped them to sustain the difficult times while some of them created remunerative opportunities and expanded their market share. The market research report provides top-winning strategies and an in-depth analysis of the top competitors that succored them to outperform the market performance.

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The global market research report acknowledges you about the market developments, technological advancements, supply & demand scenario, pricing factors, and emerging trends that are going to influence the growth of the market. This research report also provides the details on the revenue drivers, product innovations, government regulations & policies that act as a game-changer in the market growth.

Our dedicated research analyst team has gathered the information from reputable databases & journals and conducted interviews with the industry experts to get insights about the market. Along with this, analysts have included Porter’s 5 force analysis, SWOT analysis, predictive analysis, and drafted the information in an insightful yet concise manner. The curated information and figures are represented in the tables, uncomplicated graphs, and infographics to save time for the esteemed reader.

Biochar Market Segment Insights

The in-house team at Industry Growth Insights (IGI) has meticulously dissected the market segments and has done analysis in a detailed manner. The report is just not going to provide you insights on the segments that are expected to drive the market but also that are going to possibly face challenges in the market.

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The Biochar market is segmented on the basis of:

By Products:

Wood Source Biochar
Corn Stove Source Biochar
Rice Stove Source Biochar
Wheat Stove Source Biochar
Other Stove Source Biochar

The research report offers information on the products available in the market, their market performance, pricing trends, innovation & advancements that were witnessed in recent years. Moreover, the potential new products are expected to open new market avenues and create ample opportunities for industry players in the forecast period.

By Applications:

Soil Conditioner
Fertilizer
Others

The global Biochar market report provides a comprehensive analysis of the applications for the forecast period. This market segment section lays down information on the application segment that is going to dominate, exhibit high CAGR, and perform in a sluggish manner. Industry Growth Insights (IGI) is just not going to provide you insights on the segments that are expected to drive the market but also that are going to face challenges in the market.

By Regions

The research market report provides an in-depth analysis of the product performance in the afore-mentioned regions. This report lays down the information on the generated volume sales and revenue in recent years and the anticipated market performance in the region during the forecast period. Industry Growth Insights (IGI)’s dedicated research team has monitored the product performance and has gathered information on the potential new market avenues and opportunities in the region.

Note: Country of the choice can be added to the report.

Competitive Landscape

Industry Growth Insights (IGI) has profiled the prominent companies of the Biochar market. The market report includes information on the mergers, acquisitions, expansions strategies, and partnerships that top players have carried out in recent years. Along with this, it also provides details on the technologies they have adopted to leverage themselves in the market.

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Biochar Market Report-Production and Consumption Professional Analysis (Impact of COVID-19 …

3 March, 2021
 

“ Biochar Market 2021 study with prediction period 2021 to 2025 appease with comprehensive analysis of marketplace development aspects, evaluation, analysis of areas, Biochar industry supply, and rival landscape evaluation of important participating players. It supplies both Biochar marketplace qualitative […]

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A number of the key and important players of this Biochar marketplace:

Pacific Biochar
Airex Energy
BSEI
Diacarbon Energy
Diacarbon Energy Inc
Agri Tech Producers
Cool Planet Energy System
Vega Biofuels Inc
Arsta Eco

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Biochar marketplace Merchandise types:

Forestry waste
Residential waste
Biomass Plantation
Agriculture waste
Animal manure

Biochar business Programs Overview:

Agriculture and livestock
Air, soil, and water treatment
Horticulture
Industries

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Global Biochar, Bonechar, Phosphate Fertilizers Market 202-2025 Provides an In-Depth Analysis …

3 March, 2021
 

Global Biochar, Bonechar, Phosphate Fertilizers Market Overview | Development Stratagy, COVID-19 Impact Analysis, Growth Status, Competition and Forecast 2025.

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Based on product Type,

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Market Segment By Region:

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Segment 3, analyzes the Biochar, Bonechar, Phosphate Fertilizers market at a global level based on market size and sales ratio from 2015 to 2019;
Segment 4, 5, 6 and 7, explains the Biochar, Bonechar, Phosphate Fertilizers market at the regions and sub regions level based on product type, applications, revenue analysis;
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Final Segment Describes the report conclusion, appendix and data sources.

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Holistic Assessment of Biochar and Brown Coal Waste as Organic Amendments in Sustainable …

3 March, 2021
 


Biochar Market Size, Share to Grow Tremendously During 2020-2027 Industry News | ARC …

3 March, 2021
 

pune, India, Mar 03, 2021, 06:24 /Comserve / — The market is largely connected to the regulatory requirements for establishing and operating, despite the fragmentation.

The Biochar Market is highly competitive, due to a large degree of fragmentation in the market. The market is largely connected to the regulatory requirements for establishing and operating, despite the fragmentation. The research report of the global Biochar Market provides in-depth insights to ease decision making or to find relevant information. The report comprises various entities inclusive of drivers, restraints & challenges, opportunities and trends, particularly derived from primary and secondary research from various government sources, authorized sites, company websites, annual reports, e-books, encyclopedias, news articles, review articles, interview, and meta-analyses.

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The report allows users to learn about the market, its concept, segmentation, impact trends, business opportunities and market challenges. Deeper study and analysis allow consumers to get a better view of the market. The details and facts in the report are presented in graphs, tables, diagrams and other pictures. This improves comprehension and provides a clear understanding of the situation.

Based on geographical boundaries, the market is classified into: North America (US and Canada), Europe (UK, Germany, France, Spain and Rest of Europe), Asia-Pacific (China, Japan, India, Australia, South Korea, and Rest of Asia Pacific), Latin America (Brazil, Mexico, and Rest of Latin America), Middle East and Africa (GCC, South Africa, and Rest of Middle East & Africa).

 

Market Segmentation

 

Market By Application

Market By Feedstock

Market By Technology

Market By Manufacturing Process

Global Biochar Market: Competitive Landscape

Many major market manufacturers are listed in this section of the report. This helps readers to understand the strategies and collaborations that players focus on the market’s struggle against the competition. The full report offers a major microscopic overview of the market. During the projected period 2020-2027 the consumer will define the footprints of manufacturers by the awareness of the manufacturer’s global revenues, and their manufacturer’s profits.
Who are the key players in the market?

The key players operating in Biochar Market such as Agri-Tech Producers LLC, Biochar Products, Diacarbon Energy Inc., Chargrow LLC, Genesis Industries, Green Charcoal International, Vega Biofuels Inc., The Biochar Company, Pacific Pyrolysis Pty. Ltd., Cool Planet Energy Systems, Full Circle Biochar, and among others.

Overview of the Impact of COVID-19 on Biochar Market:

The development of COVID-19 has carried the world to a stop. We comprehend that this health emergency has brought an unprecedented effect on businesses across ventures. However, this also will pass. Rising help from governments and a few organizations can help in the battle against this profoundly infectious sickness. There are a few industries that are battling and some are flourishing. In general, pretty much every segment is foreseen to be affected by the pandemic.
We are making persistent efforts to enable your business to continue and develop during COVID-19 pandemics. Based on our experience and expertise, we will offer you an impact analysis of coronavirus outbreak across ventures to assist you to prepare for the future.

In a nutshell, the global Biochar Market research report encompasses the desired information in terms of both quality and quantity with the respective market. The collection of information is completely based on the authorized sources and compiled by the experts and research analysts with years of experience in the respective industry vertical.

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Few Significant Points From Table Of Content:

Chapter 1. Research Scope & Methodology

 

1.1  Market Definition

1.2  Market Scope

     1.2.1 Biochar Market Breakdown By Application

     1.2.2 Biochar Market Breakdown By Feedstock

     1.2.3 Biochar Market Breakdown By Technology

     1.2.4 Biochar Market Breakdown By Manufacturing Process

     1.2.5 Biochar Market Breakdown By Geography

1.3 Research Methodology And Sources

 

Chapter 2. Executive Summary

 

2.1 Key Findings

 

Chapter 3. Market Overview

 

3.1 Introduction

3.2 Opportunities

     3.2.1 Role Of Biochar In Lowering Carbon Food Chain

     3.2.2 Limited Availability Of Arable Land And Degrading Soil Quality

3.3 Market Drivers And Its Impact

     3.3.1 Enhancement In Crop Yield By Improving Soil Fertility

     3.3.2 Natural Carbon Sequestration Property Of Biochar

     3.3.3 Government Initiatives And Strict Environment Regulations

     3.3.4 Production Of Biochar Creating Effective Waste Management Potential

     3.3.5 Impact Analysis Of Drivers

3.4 Market Restraints And Its Impact

     3.4.1 High Cost Of Biochar

     3.4.2 Lack Of Awareness Towards The Benefits Offered By Biochar And Labor Barriers

     3.4.3 Impact Analysis Of Restraints

 

Chapter 4. Global Biochar Market By Application

 

4.1 Global Biochar Market Revenue And Forecast, 2014 – 2023 ($Million)

4.2 Global Biochar Market Volume And Forecast, 2014 – 2023 (Tons)

4.3 Global Biochar Market, By Application

     4.3.1 Global Biochar Market Revenue, By Application, 2014 – 2023 ($Million)

     4.3.2 Global Biochar Market Volume, By Application, 2014 – 2023 (Tons)

     4.3.3 Gardening

     4.3.4 Agriculture

     4.3.5 Household

 

Chapter 5. Global Biochar Market By Feedstock

 

5.1 Global Biochar Market Revenue, By Feedstock, 2014 – 2023 ($Million)

5.2 Global Biochar Market Volume, By Feedstock, 2014 – 2023 (Tons)

5.3 Agriculture Waste

5.4 Forestry Waste

5.5 Animal Manure

5.6 Biomass Plantation

 

Chapter 6. Global Biochar Market By Technology

 

6.1 Global Biochar Market Revenue, By Technology, 2014 – 2023 ($Million)

6.2 Global Biochar Market Volume, By Technology, 2014 – 2023 (Tons)

6.3 Microwave Pyrolysis

6.4 Batch Pyrolysis Kiln

6.5 Continuous Pyrolysis Kiln

6.6 Gasifier And Cookstove

6.7 Others

 

Chapter 7. Global Biochar Market By Manufacturing Process

 

7.1 Global Biochar Market Revenue, By Manufacturing Process, 2014 – 2023 ($Million)

7.2 Global Biochar Market Volume, By Manufacturing Process, 2014 – 2023 (Tons)

7.3 Gasification

7.4 Fast And Intermediate Pyrolysis

7.5 Slow Pyrolysis

7.6 Others

……..

Key Questions Answered in the Report

The report addresses key questions concerning the market evolution and overarching trends shaping global market growth. Some of the key questions answered in the report include-

– What is the overall structure of the market?
– What was the historical value and what is the forecasted value of the market?
– What are the key product level trends in the market?
– What are the market level trends in the market?
– Which of the market players are leading and what are their key differential strategies to retain their stronghold?
– Which are the most lucrative regions in the market space?
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Influence of plastic film mulch with biochar application on crop yield, evapotranspiration, and water …

3 March, 2021
 

China is the leading consumer of plastic film worldwide. Plastic film mulched ridge-furrow is one of the most widely adopted agronomic and field management practices in rain-fed agriculture in dry-land areas of China. The efficiency of plastic film mulching as a viable method to decrease evapotranspiration (ET), increase crop yields, and water use efficiency (WUE), has been demonstrated extensively by earlier studies.

A comprehensive evaluation of how co-application of plastic-film mulch and biochar in different agro-environments under varying climatic conditions influence ET, crop yield, WUE, and soil microbial activity were assessed. We performed a meta-analysis using the PRISMA guideline to assess the effect of plastic-film mulched ridge-furrow and biochar on ET, yield, and WUE of wheat (Triticum aestivum L.), potato (Solanum tuberosum L.), and maize (Zea mays L.) in northern China.

The use of plastic film increased average yields of wheat (75.7%), potato (20.2%), and maize (12.9%) in Gansu, Ningxia, Shaanxi, and Shanxi provinces, respectively due to the reduction in ET by 12.8% in Gansu, 0.5% in Ningxia, and 4.1% in Shanxi, but increased in Shaanxi by 0.5% compared to no-mulching. These changes may be attributed to the effect of plastic film mulch application which simultaneously increased WUE by 68.5% in Gansu, 23.9% in Ningxia, 16.2% in Shaanxi, and 12.8% in Shanxi, respectively. Compared to flat planting without mulching, in three years, the yield of maize increased with the co-application of plastic film and biochar by 22.86% in the Shanxi and Shaanxi regions.

Our analysis revealed co-application of plastic film with biochar is integral for improving soil and water conservation in rain-fed agriculture and as an integrated practice to avert drought while simultaneously mitigating runoff and erosion.

Poor soil fertility and water scarcity pose a major threat to crop production to meet the food needs of the increasing global population (Qin, Hu & Oenema, 2015). Soil water conservation has been identified as an important strategy for enhancing crop productivity in rain-fed agriculture (Ding et al., 2018). The amount of soil water and nutrient during different growing seasons have marked impact on crop yields in rain-fed agriculture, especially in semi-arid regions with rapidly changing climate (Grassini et al., 2010). Unfortunately, most soils in rain-fed farming areas are nutrient-deficient and susceptible to soil erosion and runoff (Liu et al., 2009). Thus, soil as an important natural asset should be properly managed to ensure sustainable agricultural production (Panpatte & Jhala, 2019). Appropriate land and water management practices are required to reduce the risk of widespread water resource depletion in dry agricultural areas (Liu et al., 2014b). For instance, Olsovska et al. (2016) reported drought-induced accelerated leaf diffusion resistance against carbon dioxide (CO2 (gm)) flow resulting in decreased stomatal conductance (gs), leaf mesophyll conductance for CO2, and net CO2 assimilation rate (AN) in wheat. Hence, rain-fed crop production and management practices need to be optimized to provide more resilient options to cope with decreasing precipitation and extreme drought periods in these regions (Verhulst et al., 2011).

Soil water conservation by soil mulching has been projected as a feasible approach to overcome water scarcity for crop productivity in rain-fed agricultural areas. Local farmers in the rain-fed agricultural areas of the Loess Plateau of China practice ridge-furrow rainwater harvesting with plastic film mulching to improve yield and water use efficiency of crops (Eldoma et al., 2016; Yu, Jia & Zhao, 2018; Zhang et al., 2018; Pan et al., 2019). Mulching offers significant agro-ecological potential (Erenstein, 2003) and thus, one of the important agronomic practices to improve moisture retention capacity of soils (Ye & Liu, 2012), promotes carbon dioxide (CO2) retention in leaves (Samui et al., 2020), soil microbial characteristics, and crop nutrients assimilation (Chakraborty et al., 2008). In unproductive soils, plastic film mulching also promotes nutrient use efficiency. For instance, Mondal et al. (2020) demonstrated 50% of the recommended dose of nitrogen with no rhizobium resulted in maximum nitrogen use efficiency while under polythene mulch; significant root nodules were recorded for treatments that received 75% of the recommended dose of nitrogen with rhizobium inoculation.

Plastic film mulch reduces evapotranspiration and enhances plant growth (Qin, Hu & Oenema, 2015; Shen et al., 2019). Plastic mulches usually leave residues in fields they have previously been applied (Jabran, 2019). The residual effect of plastic mulching considerably increased yields, and water use efficiencies of Triticum aestivum L. and Zea mays L. (Qin, Hu & Oenema, 2015) while reducing evapotranspiration (ET) (Fan et al., 2017). Contrarily, ET increased by 38.1 and 9.3% on plastic film mulched ridge-furrow and flat-planted non-mulched maize fields, respectively (Gong et al., 2017). In the first and second seasons with plastic film mulching and flat planting (FP) with no-mulching areas, Mbah & Nwite (2010) recorded an increment in yield from 55–78 and 108–142%. In two consecutive growing seasons in China, plastic film mulching with biochar modification increased the root and shoot biomass and grain yield of maize (Xiao et al., 2016). Although plastic film mulching has been the ultimate choice of mulching material in rain-fed areas, to enhance water availability in the soil for plant growth (Zhang et al., 2017), it equally poses a challenge of residual plastic film on farmlands which can impede soil structure, plant growth, nutrients and water uptake (Liu, He & Yan, 2014). The persistence of residuals in soils from pesticides (Hüffer et al., 2019) and fertilizers (Anyaoha et al., 2018) pose risks to their continuous use as inputs in agriculture. Consequently, biochar applications with plastic film mulching have been touted as an effective agronomic practice to mitigate the negative effects of residual plastic film mulching under field conditions. However, studies on the co-application of biochar and plastic film mulches in China are limited (Aller et al., 2018).

Biochar is a carbon-rich product of the thermo-chemical conversion of organic materials used as soil amendments due to their gradual decomposition rate and influence on nutrient dynamics (Gao et al., 2019). The focus of biochar research has advanced from its effects on semi-arid soils to its potential as a soil management material for global agriculture (Karer et al., 2013). In arid areas, biochar application improves soil water adsorption capacity, fertility, microbial activity, organic matter content, soil porosity, water retention, soil quality, soil aeration, and nutrients uptake for enhanced crop production (Yang & Ali, 2019). Biochar has appreciable carbon sequestration value and may act as a modifier or carbon sink to reduce CO2 emissions from decaying biomass, nutrient leaching, soil bulk density, erosion, or fertilizer needs (Mohan et al., 2014; Kavitha et al., 2018). The shared impact of plastic film mulching with biochar on ET, crop yield, and WUE as a ridge-furrow rainwater harvesting technology in China are currently less understood (Nelissen et al., 2012; Fischer et al., 2019). Therefore, understanding how biomass in China and across the world can change under the combined application of plastic film and biochar and processes activated as a result of these changes is key to harnessing their potential for wider use in agriculture (Antala et al., 2020).

The effects of plastic film mulched ridge-furrow with biochar on ET, crop yield, and WUE in rain-fed agro-ecological areas in China have been reported in the past with mixed results. We, therefore, hypothesized that the co-application of plastic film with biochar in semi-arid regions is an optimum agronomic practice for minimizing the adverse impact of drought while simultaneously mitigating runoff and erosion. Here, we performed a meta-analysis on relevant literature using the PRISMA guideline (Moher et al., 2009) to ascertain the impact of ridge-furrow plastic film mulching with biochar on ET, crop yield, and WUE of maize, wheat, and potato.

Data from only peer-reviewed publications in English investigating the effects of plastic film mulching and biochar on field crops from 1990–2020 were retrieved from online databases (ISI Web of Science, Scopus (Elsevier), ScienceDirect, PubMed, JSTOR, and Google Scholar). Nevertheless, articles from conference proceedings were excluded from this meta-analysis. In the databases, ‘yield’, and/or ‘plastic film’, and/or ‘biochar,’ and ‘mulching’ were used as search keywords. Erastus Mak-Mensah and Eunice Essel performed the Search Strategy and independently decided on appropriate publications for the study. Qi Wang intervened and resolved by discussing cases where Erastus Mak-Mensah and Eunice Essel had disagreements on the use of a particular reference in the study. The search produced a total of 556 publications, which were screened based on (1) on-field experimentation containing at least plastic film mulched ridges and no mulch treatments; (2) experimental sites located in rain-fed agriculture areas of China in Gansu, Ningxia, Shaanxi, and Shanxi provinces; (3) colors of the plastic film were black and transparent; (4) the publication included estimates of ET, crop yield, or WUE. Subsequently, due to insufficient and missing data, 535 papers were excluded from this meta-analysis and the final analysis was conducted on 21 studies (papers) based on ET, yields, and WUE after the screening process. The process of screening of publications for the meta-analysis is depicted in a flowchart (Fig. 1); which was adapted from the PRISMA protocol (Moher et al., 2009). Farming provinces and locations of field experiments for all the crops in this study are shown in Table 1 and Fig. 2. Data within the selected publications were categorized based on estimated biophysical parameters (Table 2). Variations in ET, yield, and WUE of wheat, maize, and potato under plastic film and no-mulching applications were shown in Table 3 while Table 4 shows the mean, range, and coefficient of variation (CV) of ET, yield, and WUE in different locations and precipitations in northern China. The mean, range, and coefficient of variation (CV) of yield of maize for plastic film mulched ridge-furrow and no-mulching in Shanxi and Shaanxi provinces in China are shown in Table 5.

Meta-analysis enables the statistical analysis of effect sizes and quantitative evaluation of experimental outcomes reported by other authors. Meta-analysis enhances the statistical capacity available for testing the hypotheses and the reaction variations between treatments in different environments. Unbiased estimation of the underlying true effect size, subject to random variance, can be assumed to be the effect size observed in each sample. The Newcastle Ottawa Scale (NOS), (Zeng et al., 2015), was used to assess the importance of the papers involved in this study. High-quality publications (papers) were considered based on ≥ 7 score. The scores for NOS varied from 6 to 9 (Table 1). More weight is given to data from experiments with more reliable measurements because they have a larger effect on the overall calculation (Yu et al., 2018).

We used the construction confidence interval analysis (Gao et al., 2019) to correlate the severity of the response ratio between the plastic film mulched ridge-furrow and no-mulching treatments. The effect size was computed as the natural log (ln R) of the response ratio (R) (Gao et al., 2019; Qin, Hu & Oenema, 2015), which reflects the severity of the effect of plastic film mulch on ET, yield, and WUE in this meta-analysis (Hedges, Gurevitch & Curtis , 1999), Eq. (1): R = θ t ∕ θ c I n R = I n θ t ∕ θ c = I n θ t − I n θ c where θt and θc equates the mean values of ET, yield, and WUE in plastic film mulched ridge-furrow and no-mulching, respectively. To further authenticate the outcomes from this analysis, the percentage of change (Z) in ET, yield, and WUE were determined according to Li et al. (2018a), Li et al. (2018b) as: Z = R − 1 × 100 % where a negative value for percentage change shows a decline in the variable with plastic film mulching relative to no-mulching and a positive value for percentage change, indicates an enhancement in the matching variable for plastic film mulching relative to no-mulching. Conversely, the sample sizes of the variables and standard deviation (SD) involved were obtained in addition to the means from the articles or computed using the following equation (Yu et al., 2018): S D = S E × n .

For studies which did not report SD; the average coefficient of variation (CV) within each data was computed and then approximated as the unavailable SD using the following equation (Yu et al., 2018): S D = C V × θ where θ equates the mean of plastic film mulched ridge-furrow with biochar or no-mulching. The effect sizes of plastic film with biochar and no-mulching for ET, crop yield, and WUE were continuous variables, hence were calculated by random-effects models using the Review Manager software (RevMan; ver. 5.3, Nordic Cochrane Centre, Denmark). The heterogeneity between studies used in this analysis has been measured with Chi2 and I2 statistics (Table 6). The parameters for heterogeneity for the I2 test were as follows: I2 <25% indicates no heterogeneity; moderate heterogeneity is considered to be 25–75%; strong heterogeneity is considered to be I2 >75% (Table 7). Random-effects models were implemented in cases of mild to high heterogeneity, indicated by a Chi2 p-value<0.05 and X2 > 50%. The RevMan program weighed the mean differences of the plastic film with biochar and no-mulching groups according to their SE and sample sizes, and their confidence intervals (CI) were computed from their weighted effect sizes. The impact of a treatment was significant if there was no zero in the 95% CIs of the effect size of that treatment. Conversely, the treatment was considered not significant when the 95% CIs includes zero. Similarly, a general linear model in SPSS statistical software (ver. 26.0, SPSS Inc., Chicago, USA) was used to compute the effect of location, crop type, and rainfall on ET, crop yield, and WUE. The frequency distribution of effect sizes (Odds ratio) was computed using Excel 2016 spreadsheet to illustrate the distribution symmetries of the individual studies.

Considering climate variables (precipitation and air temperature), the meta-analysis indicated that in the growing-seasons, precipitation and air temperature had no significant (p > 0.05) effects on maize, wheat, and potato yields in the plastic film mulched ridge-furrow treatment (Fig. 1). The meta-analysis dataset had pH in all the areas of study as slightly alkaline (>7) hence no comparison was made in that regard (Table 4). Therefore, we investigated in three categorized soil types, i.e., light, medium, and heavy, the impacts of ridge-furrow plastic film mulching on maize, wheat, and potato yields (Table 4). In the plastic film mulched ridge-furrow treatment, the mean effect size for the light soil type (1.68 [0.38–2.99]) was significant (p = 0.01) as compared to the medium and heavy soil types (Fig. 3). The mean effect size was not significantly (p > 0.05) different among the medium and heavy soil types in the plastic film mulched ridge-furrow treatment. Maize yields in Shanxi ranged from 11,290 to 11,527 kg ha−1 in the plastic film mulched ridge-furrow treatment and were significantly (p < 0.05) higher than for Ningxia which ranged from 12,779 to 13,073 kg ha −1 in our meta-analysis dataset (Table 3). The impacts of plastic film mulched ridge-furrow on yield varied with the soil bulk density (Table 4). Plastic film mulched ridge-furrow significantly (p < 0.05) improved yield in light soils by 43% compared with flat planting with no-mulching in areas with a soil bulk density of >1.3 g cm−3(Fig. 3). Soil organic carbon (SOC) content of 0–10 cm soil layer in areas of >9 g kg−1) in the plastic film mulched ridge-furrow treatments was improved (27.8%) compared with flat planting with no-mulching. With high soil available N (>50 mg kg−1), plastic film mulching exerted a greater impact on maize, wheat, and potato yield with high soil available P (>20 mg kg−1) and low soil available K (<150 mg kg−1).

Compared with flat planting without mulching, plastic film mulched ridge-furrow significantly increased WUE (16.1%; p = 0.01) in regions with an air temperature >9 °C, but, had no significant impact on ET (0.46%; p = 0.64) (Fig. 4). This increase in WUE was significant in regions with heavy soil type and texture (20.68%; p = 0.01), soil organic carbon content of > 9 g kg−1 (22.2%; p = 0.03), and soil available N of > 50 mg kg−1 (22%; p = 0.01) (Fig. 5). In contrast, plastic film mulched ridge-furrow had no significant effects on ET in heavy soil type (0.99%; p = 0.96), soil organic carbon content of > 9 g kg−1 (1.67%; p = 0.91) and soil available N of > 50 mg kg−1 (0.51%; p = 0.95) (Fig. 4). The average WUE of maize in Ningxia was significantly increased by 33.9% (p = 0.01) with plastic film mulched ridge-furrow higher than 16.2% in Shaanxi compared to flat planting without mulching (Fig. 5). The increase in WUE with plastic film mulched ridge-furrow may be attributed to the increase in yield and decrease in ET, as demonstrated by our analysis.

In three years, the yield of maize increased significantly with the co-application of plastic film and biochar by 22.86% (p = 0.05) compared with flat planting without mulching in the Shanxi and Shaanxi regions. Although, in the plastic film mulched ridge-furrow and biochar co-application treatments, the mean effect size for maize (0.79 [−0.92–2.50]; p = 0.05) was not significant as compared to the flat planting without mulching in these regions. Mean crop yields ranged from 10.43 –14.7 (t ha−1) (10,430–14,700 kg ha−1) with plastic film mulched ridge-furrow and biochar combination treatment as compared to 9.11–9.99 (t ha−1) (9,110–9,990 kg ha−1) in the flat planting without mulching (Table 5).

In the Loess Plateau, variability in the amount and distribution of seasonal precipitation is a major source of variation in ET, which includes evaporation from the soil surface and crop transpiration (Lu et al., 2014). This meta-analysis indicates the yield of wheat, maize, and potato was increased with plastic film mulching compared with flat planting with no-mulching in Gansu, Ningxia, Shaanxi, and Shanxi provinces. This may be ascribed to increased WUE and decreased in ET in the treatment fields. This is consistent with Mbah & Nwite (2010), who reported plastic film mulch boosts maize yield (55–78%) in the first and second seasons (108–142%) of maize production. Ding et al. (2019) found that with plastic film mulching, soil hydrothermal conditions improved and substantially accelerated the emergence of wheat leaves and tiller growth, resulting in increased spike number and grain yield. Again, transpiration (Zhou et al., 2009), and soil evaporation (Zribi et al., 2015) decreased with the application of plastic film mulch hence maize yield was improved. Thus, plastic film mulching significantly improves crop production and increases resource use efficiency, as a potential soil amendment for sustainable dryland farming (Ding et al., 2019).

Several studies have subsequently shown that plastic film mulching enhances yield and WUE in different crop fields (Anikwe et al., 2007). In this study, plastic film mulching significantly (p = 0.01) increased WUE and decreased ET (p > 0.05) in the low and high areas of rainfall in Gansu, Ningxia, Shaanxi, and Shanxi provinces. In these areas, the decrease in ET improves the volume of soil water that enhances crop emergence and maturity. This finding is consistent with a research by Liu et al. (2014a); Liu et al. (2014b), which asserted full-year double ridge–furrow plastic film mulching could increase grain yields of maize (110 kg N ha−1) and conserve soil water during periods of drought. Simulation of soil water and heat flow in ridge cultivation with plastic film mulching on the Chinese Loess Plateau decreased ET where plastic film mulching was less efficient practice for increasing WUE in dryland agriculture (Zhao et al., 2018). Plastic film mulching can provide conducive surroundings for attaining high potato yield (Wang et al., 2019) and facilitating maize grain filling hence maximizing yield (Liu et al., 2016). Consequently, plastic film mulched ridge-furrow approach may serve as a promising agronomic method in arid and semiarid regions to increase potato yield (Qin et al., 2016).

The ridge furrow (RF) rainfall harvesting planting with N:P fertilizer rate (300:150 kg ha−1) significantly increased (p < 0.05) the mean WUE over 2 years by 53% compared with the traditional flat planting (Li et al., 2018a). Conversely, Zhang et al. (2019) in a report suggested 50 cm mulched ridge:10 cm bare furrow ridge-plastic film furrow mulching (RFM) system was more effective in increasing maize growth compared to conventional flat planting. This increased maize grain yield and WUE from 43.1% to 59.2% and from 38.5% to 57.4%, respectively. Concurrently, yield, and WUE in a study by Fan et al. (2019) revealed improved grain yield of 20.0% and 3.45 kg ha−1 mm−1 with plastic film mulched ridge-furrow, respectively. Furthermore, Dang et al. (2016) in 2014 discovered plastic film-mulched ridge-furrow (RF) used 17.9% less water and 33.1% more WUE than flat planting (FP) with no-mulching. In 2015, RF showed 56.2% higher yield, 15.0% lower water use (ET), and 63.4% higher WUE than FP, respectively. Zhao et al. (2012) in 2009 and 2010 also reported yields from plastic film mulched fields which increased from 33.9–92.5% and 62.9–77.8%, respectively, relative to FP, and corresponding WUEs increased from 41.4–112.6% and 45.9–70.6%. Compared to traditional flat planting, the average four-year maize yield increased from 1497.1 kg ha−1 to 2937.3 kg ha−1 using the ridge and furrow farming method, and the WUE increased from 2.3 kg ha−1 mm−1 to 5.1 kg ha−1 mm−1 (Ren et al., 2016b). Approximately, in a three-year study, Ren et al. (2016a) revealed WUE and yield of winter wheat was significantly higher in a 60 cm ridge with 60 cm furrow width than in the conventional flat planting without ridging by 2.39 kg mm−1 ha−1, and 405.1 kg ha−1 (p < 0.05). However, with increases in mulch length, both tuber yield and WUE decreased, indicating plastic film mulch requires early removal (Wang et al., 2009). The biodegradable mulch from our analysis improved by 64.5–73.1%, WUE in maize, wheat, and potato compared to FP (Deng et al., 2019). In addition, Xiaoli et al. (2013) in a three-year field experiment integrating various furrow-applied mulches in maize production under a plastic film mulched ridge and furrow rainwater harvesting (PRFRH) in China’s Loess Plateau semi-arid lands revealed a decrease in plastic film with a thickness of 0.08 mm use. This indicates soil evaporation losses may be minimized by mulching and emphasizes the potential to increase crop sustainability via integrated PRFRH systems in semi-arid areas.

Xiang et al. (2017) in a meta-analysis revealed biochar modifications increased root biomass by 32%, root diameter by 9.9%, root volume by 29%, root tips by 17%, root length by 52%, and surface area by 39%. Plant roots play key roles in plant maturity (Yu et al., 2019). By altering the growth of roots and rhizosphere microbial activities, biochar may accelerate plant growth and nutrient uptake (Lehmann & Joseph, 2012). Joseph et al. (2010) found plant roots or root hairs enter soil macro-pores filled with water or attach to the surface of biochar, triggering assorted reactions to facilitate absorption of nutrients. Furthermore, the use of biochar by Mensah & Frimpong (2018) in maize production on acidic soils in Ghana resulted in a substantial increase (p < 0.01) in leaf number, plant height, and stem girth. Agegnehu et al. (2016) established significant correlations in maize grain yield with total biomass, leaf chlorophyll, N and P foliar content, soil organic matter, and soil water content as direct effects of biochar application compared to control. Liu et al. (2014a) in an experiment obtained the highest yield of sweet potato (53.77%; p < 0.05), which was higher compared to no biochar treatment (control). Liang et al. (2014), following biochar application, obtained 10% higher grain yield in winter wheat and summer maize than control (no biochar). Again, Liang et al. (2014) reported an increase in soil pH with increasing biochar application rates.

According to Xiao et al. (2016), 20 and 30 t ha−1 biochar treatments increased wheat yields by 9 and 13% in 2012 and 11 and 14% in 2013 compared to no biochar treatments, respectively. Wheat grain yield remarkably improved by 6 and 9% in 2012 and 2013 with plastic film mulched ridge-furrow with 20 t ha−1 biochar treatments compared to plastic film mulched ridge-furrow without biochar treatments (Xiao et al., 2016). In addition, Jeffery et al. (2011) in a meta-analysis indicated biochar-treated soils increased crop productivity averagely at 10% (–28% to 39%) compared with plots without mulching. Residual impact of biochar on soil fertility largely accounted for an increase in crop yield under co-application of plastic film mulched ridge-furrow with biochar treatment (Rehman & Razzaq, 2017).

In rain-fed agricultural regions with minimal rainfall in cropping seasons, ridge-furrow mulching with plastic film results in improved crop yields and WUE. The co-application of plastic film mulched ridge-furrow with biochar may potentially mitigate the adverse effects of plastic film application including greenhouse gas emissions, and plastic film residue buildup in soils. Our analysis indicates WUE and yield of maize, wheat, and potato in Gansu, Ningxia, Shaanxi, and Shanxi provinces were significantly influenced by the plastic film mulch application compared to control (no-mulching) (p < 0.05). Plastic film mulched ridge-furrow approach of farming had a significant (p = 0.01) impact on light soil type compared to the medium and heavy soil types. ET was significantly decreased as compared with FP during the planting seasons. The combined application of plastic film mulch with biochar in these regions improved yield by 22.86% compared with FP. This may be an ideal agronomic practice that may be employed by smallholder farmers in crop production for optimum yield. The practice may equally serve as a potential soil and water-saving practice in rain-fed agriculture especially in areas with changing climate to minimize the effect of drought while mitigating runoff and erosion. A future study on plastic film mulched ridge-furrow rainwater harvesting system with biochar may assess and provide detailed information on the combined effect of biochar with plastic film on soil physico-chemical properties under field conditions.

John Kojo Ahiakpa is employed by Research Desk Consulting Ltd.

Erastus Mak-Mensah conceived and designed the experiments, performed the study, analyzed the data, prepared figures and/or tables, authored or reviewed drafts of the paper, and approved the final draft.

Peter Bilson Obour analyzed the data, authored or reviewed drafts of the paper, and approved the final draft.

Eunice Essel conceived and co-designed the study, prepared figures and/or tables, and approved the final draft.

Qi Wang co-conceived and co-designed the study, prepared figures and/or tables, and approved the final draft.

John K. Ahiakpa analyzed the data, prepared figures and/or tables, authored or reviewed drafts of the paper, and approved the final draft.

The following information was supplied regarding data availability:

Raw measurements are available in the Supplementary Files.

This research was funded by the National Natural Science Foundation of China (42061050 and 41661059). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Biochar Market to Generate Heightened Revenue Prospects for Manufacturers in the Next Decade

3 March, 2021
 

The Global Biochar Market Research Report is a well-synced synopsis highlighting some of the most important real-time research analyses enabling fast and efficient business discretion. This report is a quick reference point for sticking to readers’ understanding of the volatility […]

The Global Biochar Market Research Report is a well-synced synopsis highlighting some of the most important real-time research analyses enabling fast and efficient business discretion. This report is a quick reference point for sticking to readers’ understanding of the volatility market conditions that collectively create enormous growth opportunities in the global Biochar Market. With this report, research analysts and industry experts aim to provide sufficient information on the threats and challenges that continue to hold back the growth spike in the Biochar Market, as well as additional essential determinants such as scrutiny reviews and analysis opportunities assessment. Research methodology covers several factors such as increasing market analysis for several factors such as PESTLE analysis, SWOT analysis, etc. These strategies are used to determine external factors that can influence the market growth. It also includes several strategies for estimating and determining market growth. It is also estimated that the global Biochar Market will determine the growth of certain segments of the industry.

Request for a sample copy of this research report @ https://www.adroitmarketresearch.com/contacts/request-sample/698?utm_source=re

This sophisticated presentation of the global Biochar Market also includes excerpts from the post-Covid-19 assessment that made a huge difference in the market dynamics spectrum. This report is designed to meet the reader’s preferences and to escape the downward growth process. In addition, a close review of important statistics on the performance of a profitable business strategy that utilizes favorable consumer interest and follow-up discretion is also displayed in the report, influencing the careful business decisions of market participants. The research report of the global Biochar Market provides information on the top manufacturers currently active in this industry and with good market regions.

Some of the Important and Key Players of the Global Biochar Market:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

Complete Summary with TOC Available @ https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=re

The global Biochar Market research report provides an in-depth study of the market based on key segments such as product type, application, key companies and key regions, end users, and more. Research reports help participants understand their competitive strengths. It provides global information on the market, providing individual, weakness and competitive analysis for each participant.

fAdditionally, the research report provides an analysis of the key reasons or drivers responsible for the growth of the Biochar Market. Additionally, the report provides some key reasons that could hinder the growth of the market during the forecast period. Therefore, this study provides an estimate of the growth of the market based on various segmentations and calculations made by historical and current data. In this way, research reports can help consumers undertake strategic initiatives for growth of the Biochar Market industry.

Biochar Market Segmentation

Type Analysis of Biochar Market:

by Technology (Pyrolysis, Gasification and Others)

Applications Analysis of Biochar Market:

by Application (Agriculture and Others)

Competition spectrum: detailed analysis

1. Carefully crafted and edited for the continued development of the global Biochar Market, this article has summarized details related to the current state of competitive intensity.
2. New technology integrations, new product launches and diversification, in-depth analysis of key Biochar Market players, and new player entry potential details are also covered in the report as appropriate.
3. In addition, for the interest of readers, the report also includes details on key industry developments and player activities, including details on mergers and acquisitions, mergers and collaborations, and all commercial contracts are best evaluated in the report.

Reporting the offering at the point

1. A cross-sectional analysis of the aforementioned Biochar Market, including key manufacturer activities, as well as a branch-by-point overview of all key segments
2. Thorough evaluation of regional development by summarizing various developments from a country-specific perspective
3. Review of rigorous real-time analysis of industry development from a multifaceted perspective to encourage profitable business discretion
4. Full documentation of current market influencing factors such as the COVID-19 epidemic and its impact
5. A systematic representation of key opportunities mapping, competitive strength and barrier analysis to encourage smart business ventures.

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How To Make Biochar Pdf – arxiusarquitectura

3 March, 2021
 

And improving the air as well.when you bury the car… Over the past 50 years the population in thailand has increased 146%, from 27.4 million to 67.2 million.

How to make biochar pdf. Better to load biochar with nutrients and entice microbes to move in Tlud gasifiers can make biochar •flaming (glowing) pyrolysis with very limited supply of air. The resulting biochar can take the shape of sticks, pellets, or dust.

Make some biochar and start using it then move to more sophisticated methods later if you become enamored with the concept of biochar. Set fire to the material which will initially give off clouds of white smoke. In addition to use in the soil, newer uses for biochar are now competing with traditional.

Biochar can be collected from half burned campfire wood. Biochar’s complex chemical structure is defined by the feedstock it is made from and the temperature conditions used in its manufacture. Make your own biochar and terra preta:

Make sure there is dry, kindling size material on the top. The important part is to burn from the top down. •this is how biochar enhances soil for increasing fertility and higher crop yields

Light evenly across the top. Hoping to promote simple, scalable, environmentally sound methods for making biochar for improving the soil on small farms and in backyard gardens. Charcoal usually has a total carbon content of over

Produce a biochar formulation by pelleting, prilling, and mixing biochar with Biochar training for poor farmers has become warm heart environment’s number one goal. This is not a retort.

How to make biochar at home. •usually 15% to 22% yield of biochar by weight. Nothing should be more than 3 inches in diameter.

Using a flame cap kiln 3 illustrated guide to using the oregon kiln load dry feedstock loosely in the kiln, up to a foot or so above the kiln edge. Water can be applied directly to the biochar, or it can be mixed with moist manure, for example. You can make biochar at home on a micro scale by digging a trench or hole and putting a mixture of dry wood and dried plant materials such as sweetcorn stalks or perennial weeds and roots into it.

When it thins, pop on a lid to slow combustion. Making biochar in a drum, dish or earthen pit is a very simple way to start making charcoal and learn the process. Char can also reinvigorate poor forest soils to further inspire tree and understory growth.

Biochar, more cheaply than the pyrolysis process the main emphasis in the latter is on the production of biochar. A simple way to make biochar in a 55 gallon drum. Biochar aids diversity by moderating stressful conditions and creating a stable habitat for microbes adding ‘uncharged’ biochar can be a disruptor by tying up nutrients.

To make use of the waste wood generated by the sawmill, a chemical plant was constructed and in operation by 1924. Making biochar charcoal in a garden. Participants also know how to produce biochar using retort kilns, and conventional methods and the disadvantages and advantages of each method, some farmers are able to make their own biochar by conventional methods.

Who have little to no biochar training in regards to sustainable agriculture practices. For this reason simple carbonization methods, similar to the original biochar piles but in improved form are likely to be more economical than more complicated plants that place emphasis. When biochar is inserted in soil, the effect is to remove carbon from the.

•under a microscope, biochar reveals high porosity that serve as good habitat for microbes, stocked with nutrients, water and oxygen. Can make “designer biochar” with forced air. •control of primary air supply impacts the characteristics (quality) and quantity of biochar.

More and more research is being published highlighting the different ways biochar can be a valuable part The carbon the organic material had previously absorbed via photosynthesis is thus captured in solid form; Biochar can help reduce carbon emissions and make thinning even more productive.

There are two farmers want apply biochar in their land in next planting season and establish a biochar production group. The 610 pounds of charcoal reclaimed per ton was manufactured into briquettes and sold as ford charcoal. From there it can become as elaborate or large as needed or wanted.

About 50% of the carbon in the organic matter is sequestered in the biochar. Biochar produced from various biomass has been widely used in environmental applications owing to its ability to immobilize or remove the contaminants from soil, water and air. Biochar is a form of charcoal but is different in that biochar is produced in controlled conditions so that most of the carbon is converted to usable products.

You can make biochar in the garden by doing a controlled burn in a trench right in your garden area. Pdf | on nov 1, 2017, janick f artiola and others published guide to making and using biochar for gardens in southern arizona | find, read and cite all the research you need on researchgate Biochar dust and hold it on the soil surface until it can be tilled in.

Biochar training provides needed change. •biochar increases soc attracting soil bacteria that make soils more fertile. A tour of our facility, with attention to how we make use of heat, syngas and condensate products

Biochar can be made from a much broader range of materials than charcoal can. You can also make biochar in a burn barrel. 40% of the population are poor farmers.

The chemical plant reclaimed, from every ton of scrap wood, a variety of saleable byproducts. Too many potential users get caught up with the minutia of creating and inoculating biochar instead of harvesting its effects. Burning wood slowly and at low temperatures is still one of the least expensive and easiest ways to make charcoal.


Global Biofuels Market – Top Participant To Focus On Regional Expansion

3 March, 2021
 

The report titled “Biofuels Market by Type (Bioethanol and Biodiesel), and by Form – Solid (Biocoal, Biochar), Fuel Pellets Liquid (Biodiesel and Bioethanol), and Gaseous (Biogas, Biopropane, and Syngas) – Global Industry Perspective, Comprehensive Analysis, and Forecast, 2016 – 2022” published by Zion Market Research utilizing diverse methodologies aims to examine and put forth in-depth and accurate data regarding the global Biofuels Market. The report is segregated into different well-defined sections to provide the reader with an easy and understandable informational document. Further, each section is elaborated with all the required data to gain knowledge about the market before entering it or reinforcing their current foothold. The report is divided into:

FREE | Request Sample is Available @ https://www.zionmarketresearch.com/sample/biofuels-market

The Biofuels report through its overview section provides the overall scenario and dynamics of the global Biofuels market with it definition and others details. Further, the key player and competitive landscape segment of the report enlist the various players actively participating and competing in the global market. The report also entails the new market entrants. The key major market players include. The report encompasses the leading manufacturers along with their respective share in the global market in terms of revenue. Moreover, it mentions their tactical steps in the last few years, leadership changes, and product innovation investments to help in making well-informed decision and also to stay at forefront in the competition.

Major Competitive Players :

Copersucar S.A DSM, Green Plains Inc., Aemetis Inc, Western Dubuque Biodiesel Llc, Solazyme Inc, Renewable Energy Group, Raizen Energia Participacoes S.A, BlueFire Renewables, Aventine Renewable Energy HoldingsInc. (AVRW), and Australian Renewable Fuels Ltd.

Moving to the growth drivers and restraints section, one will be presented with all factors that are directly or indirectly aiding the growth of the global Biofuels market. To get acquainted with the market’s growth statistics, it is essential to assess the several drivers of the market. In addition, the report also puts forth the existing trends along with new and possible growth opportunities in the global market. Moreover, the report includes the factors that can possibly hinder the growth of the market. Understanding these factors is similarly crucial as they aid in comprehending the market’s weaknesses.

Promising Regions & Countries Mentioned In The Biofuels Market Report:

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The segmentation of the global Biofuels market segregates the market based on different aspects such as Further, each segment is elaborated providing all the vital details along with growth analysis for the forecast period. The report also divides the market by region into North America, Europe, Asia Pacific, the Middle East & Africa, and Latin America. The regional analysis covers the volume and revenue assessment of every region along with their respective countries. In addition, the report also entails various market aspects such as import & export, supply chain value, market share, sales, volume, and so on.

Primary and secondary approaches are being used by the analysts and researchers to compile these data. Thus, this Biofuels Market by Type (Bioethanol and Biodiesel), and by Form – Solid (Biocoal, Biochar), Fuel Pellets Liquid (Biodiesel and Bioethanol), and Gaseous (Biogas, Biopropane, and Syngas) – Global Industry Perspective, Comprehensive Analysis, and Forecast, 2016 – 2022 report is intended at directing the readers to a better, apprehensive, and clearer facts and data of the global Biofuels market.

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Soilscape Solutions® Biochar

3 March, 2021
 

This biochar is made from wood biochar, worm castings, and rice hulls. The unique biological activation process that we have developed results in a biochar material that is charged, matured, and instantly ready to help your soil produce vigorous plants.

Pro Tips:

Soilscape Solutions® Biochar should only ever be added to soil one time, with no successive applications.

LEARN

As a soil addition for indoor or outdoor containers and native soils. Incorperated globally at 2-3% of total medium volume.

Safe to use and handle when used as directed, and is compatible with most soil mediums, fertilizers, herbicides and fungicides.

Apply one time only at 2-3% of total soil medium volume.

Store in a dry place. Avoid excessive humidity or moisture.

SPECS

Keep out of reach of children and pets. Do not swallow.

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%23Biochar – Twitter Search / Twitter

3 March, 2021
 

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Fine Biochar Powder Market Business Overview, Revenue, Price and Gross Margin, Product …

3 March, 2021
 

ResearchMoz.us, a global marketplace for researching and consulting services, has just launched the most comprehensive market report on the global Fine Biochar Powder market in its extensive repository that is beneficial for looking upon the growth dynamics and competitive landscape. The new Fine Biochar Powder market report will give you the full in-depth insight on the regional opportunities and potential, threats and strengths.  

The new Fine Biochar Powder Market report is a rich repository of pieces’ information gathered after extensive research from many sources. Some of the sources are investors, policymakers, end-use industries, and opinion leaders. The basis of the research outcome from different sources, a careful enumeration is done for production, demand, and consumption. 

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Now, the players can boost the business’ revenue while using the Data on the forecast period. They can set the Data on the forecast period against the historical period to create a better revenue improvement decision. The Fine Biochar Powder market report’s forecast period is 2020 to 2030, and the historical data spans 2015 to 2020. 

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Demand for Biochar Grows Strong amid Economic Turmoil Spurred by COVID-19 Pandemic Fact …

4 March, 2021
 

A recent market intelligence on the biochar landscape tracks the global scanerio of biochar market. The report indicates that sales of biochar equaled 1,800 tons in 2018, which are likely to see an impressive 13% Y-o-Y rise by the end of 2019. Other than the high sustainability quotient and carbon negative peculiarity of biochar, the sales will remain highly influenced by its potential applicability in water filtration, stormwater management, and green infrastructure practices.

Increasing awareness about the application of biochar in soil as a viable substitute for traditional forms of mineral amendments and the ability to strengthen the ecological aspects of bioenergy engineering, are upholding the gains in market. The multifunctional positive impacts of biochar solidifying its position in the strategy to eradicate CO2 from the atmosphere is garnering substantial prominence in the market. Moreover, while growing consideration of its potential to assist the climate change mitigation will remain the strong booster to a progressing sales scenario in coming years.

For more insights into the Market, Request a Sample of this Report:

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The study opines that growing applications of biochar in greenhouse gas (GHG) remediation and waste management will continue to bolster the growth prospects of the market. Moreover, rising awareness about biochar and its role in improving plant growth has been fostering its adoption in farming, which is underpinning thr growth of market.

As per the study, use of biochar in farming has increased significantly in the recent years, accounting for 1,251 tons of sales in 2018. This falls in line with the plethora of benefits of using biochar in farming, such as enhanced soil fertility, and consequent increase in crop yields. Biochar has also garnered substantial traction as a fertilizer to improve the water retention capacity, aeration and soil tilth. Companies are eying the lucrativeness of biochar in aiding carbon sequestration to march forward in the biochar market. These are the key determinants that are positively impacting the growth prospects of the biochar market.

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Sales of biochar will pick pace in the forthcoming years, owing to growing awareness about its potential role in alleviating climate change. This falls in line with the presence of carbon in raw biomass, which would otherwise degrade to the greenhouse gases and get sequester in the soil for several years. The study indicates that as growing ongoing research and development activities are investigating potential applications of biochar, such as filtration and super capacitors, sales are likely to grow significantly through 2029.

Pyrolyzed Biochar Accounts for 80% Shares in Revenues

According to the Fact.MR study, pyrolysis will continue to remain highly sought-after technology for biochar production. The market has witnessed sales of 1,577 tons of pyrolyzed biochar in 2018, and as per the study, it is highly likely to register ~13% Y-o-Y growth in 2019. Use of pyrolysis technology for biochar production will continue to grow, as it produces rich in carbon content and highly stable yield. Pyrolysis technology is widely used by several market players, including Earth Systems and Clean Fuels B.V. for high-yield production of biochar market. Organic waste-based biochar and its role in improving biomass production by enhancing the soil fertility and contaminant remediation, is projected to be a key determinant that will drive demand in the forthcoming years.

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North America will continue to reign supreme globally, through 2029. A large number of market players in North America are increasingly focusing on innovating their offerings and biochar commercialization to expand their footprint in the global market. As per the study, commercialization of biochar as a soil additive is yet to achieve its full potential among farmers, which also points to a new window of opportunity for market players. Several market players are taking significant initiatives and organizing programs in different regions to explicitly educate farmers, and drive their product sales.

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Mechanism of novel MoS 2 -modified biochar composites for removal of cadmium (II) from aqueous …

4 March, 2021
 

The purpose of this study was to develop a MoS2-impregnated biochar (MoS2@BC) via hydrothermal reaction for adsorption of cadmium (Cd) from an aqueous solution. The prepared adsorbents were characterized, and their abilities to remove Cd(II) were evaluated. The Langmuir and pseudo-second-order models better described the removal of Cd(II) by MoS2@BC. The prepared MoS2@BC exhibited excellent monolayer adsorption capacity. The S-containing functional groups on MoS2@BC enhanced the adsorption of Cd(II). Multiple Cd(II) sorption mechanisms were identified; including Cd(II)-π interactions, ion exchange, electrostatic interaction, and complexation. The dominant mechanism involved Cd-O (38.3%) bonds and Cd-S complexation (61.7%) on MoS2@BC. The as-prepared MoS2@BC is both economical and efficient, making it an excellent material for environmental Cd(II) remediation.

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All data generated or analysed during this study are included in this published article and its supplementary information files.

Zulqarnain Haider Khan is thankful to Ms. Anum Naeem Niazi for her moral support and partial assistance in writing the article.

This study was funded by the National Natural Science Foundation of China (No. 41771525) and STU Scientific Research Foundation for Talents (NTF19025).

Zulqarnain Haider Khan preformed laboratory experiments. M.L. Gao and W.W. Qiu provided significant input on experimental design. Z.G. Song conceived of the idea of this study and provided financial means. Zulqarnain Haider Khan and M.L. Gao interpreted histological data. Zulqarnain Haider Khan and Z.G. Song analyzed the data and prepared the manuscript. All authors contributed substantially to revisions.

Correspondence to Zhengguo Song.

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The authors declare no conflicts of interest.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Responsible Editor: Zhihong Xu

(DOCX 1109 kb)

Received: 31 December 2020

Accepted: 24 February 2021

Published: 04 March 2021

DOI: https://doi.org/10.1007/s11356-021-13199-9

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Application of biochars in the remediation of chromium contamination: Fabrication, mechanisms …

4 March, 2021
 

Hybrid and biological methods for biochar modification were first summarized.

Redox-active and photocatalytic properties of biochar were emphasized.

Adsorption, reduction, electron shuttle, and photocatalysis were main mechanisms for Cr removal by biochar.

Interfering species influencing Cr immobilization capacity of biochar were discussed.

Hybrid and biological methods for biochar modification were first summarized.

Redox-active and photocatalytic properties of biochar were emphasized.

Adsorption, reduction, electron shuttle, and photocatalysis were main mechanisms for Cr removal by biochar.

Interfering species influencing Cr immobilization capacity of biochar were discussed.

Chromium (Cr) is one of the most toxic pollutants that has accumulated in terrestrial and aqueous systems, posing serious risks towards living beings on a worldwide scale. The immobilization, removal, and detoxification of active Cr from natural environment can be accomplished using multiple advanced materials. Biochar, a carbonaceous pyrolytic product made from biomass waste, is considered as a promising material for the elimination of Cr contamination. The preparation and properties of biochar as well as its remediation process for Cr ions have been well investigated. However, the distinct correlation of the manufacturing, characteristics, and mechanisms involved in the remediation of Cr contamination by various designed biochars is not summarized. Herein, this review provides information about the production, modification, and characteristics of biochars along with their corresponding effects on Cr stabilization. Biochar could be modified via physical, hybrid, chemical, and biological methods. The remediating mechanisms of Cr contamination using biochars involve adsorption, reduction, electron shuttle, and photocatalysis. Moreover, the coexisting ions and organic pollutants change the pattern of the remediating process of biochar in actual Cr contaminated water and soil. Finally, the present limitations and future perspectives are proposed.


Biochar Market, Global Trends, Business Overview, Challenges, Opportunities Analysis and …

4 March, 2021
 

A new informative report titled Global Biochar Market Analysis 2016-2020 and Forecast 2021-2026” has recently published by Credible Markets to its humongous database which helps to shape the future of the businesses by making well-informed business decisions. It offers a comprehensive analysis of various business aspects such as COVID-19 impact analysis impacts, global market trends, recent technological advancements, market shares, size, and new innovations. Furthermore, this analytical data has been compiled through data exploratory techniques such as primary and secondary research. Moreover, an expert team of researchers throws light on various static as well as dynamic aspects of the global Biochar market.

Biochar Market report provides an in-depth review of the Expansion Drivers, Potential Challenges, Distinctive Trends, and Opportunities for market participants to equip readers to totally comprehend the landscape of the Biochar market. Major prime key manufacturers enclosed within the report alongside Market Share, Stock Determinations and Figures, Contact information, Sales, Capacity, Production, Price, Cost, Revenue and Business Profiles. The main objective of the Biochar industry report is to Supply Key Insights on Competition Positioning, Current Trends, Market Potential, Growth Rates, and Alternative Relevant Statistics.

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Product Type Coverage (Market Size & Forecast, Major Company of Product Type etc.):

⦿ Wood Source Biochar
⦿ Corn Stove Source Biochar
⦿ Rice Stove Source Biochar
⦿ Wheat Stove Source Biochar
⦿ Other Stove Source Biochar

Company Coverage (Company Profile, Sales Revenue, Price, Gross Margin, Main Products etc.):

⦿ Diacarbon Energy
⦿ Agri-Tech Producers
⦿ Biochar Now
⦿ Carbon Gold
⦿ Kina
⦿ The Biochar Company
⦿ Swiss Biochar GmbH
⦿ ElementC6
⦿ BioChar Products
⦿ BlackCarbon
⦿ Cool Planet
⦿ Carbon Terra
⦿ Pacific Biochar
⦿ Vega Biofuels
⦿ Liaoning Jinhefu Group
⦿ Hubei Jinri Ecology-Energy
⦿ Nanjing Qinfeng Crop-straw Technology
⦿ Seek Bio-Technology (Shanghai)

Application Coverage (Market Size & Forecast, Different Demand Market by Region, Main Consumer Profile etc.):

⦿ Soil Conditioner
⦿ Fertilizer
⦿ Others

Region Coverage (Regional Production, Demand & Forecast by Countries etc.):

⦿ North America (U.S., Canada, Mexico)
⦿ Europe (Germany, U.K., France, Italy, Russia, Spain etc.)
⦿ Asia-Pacific (China, India, Japan, Southeast Asia etc.)
⦿ South America (Brazil, Argentina etc.)
⦿ Middle East & Africa (Saudi Arabia, South Africa etc.)

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Some Points from Table of Content

Global Biochar Market Analysis 2016-2020 and Forecast 2021-2026

Chapter 1 Industry Overview

Chapter 2 Industry Environment (PEST Analysis)

Chapter 3 Biochar Market by Type

Chapter 4 Major Companies List

Chapter 5 Market Competition

Chapter 6 Demand by End Market

Chapter 7 Region Operation

Chapter 8 Marketing & Price

Chapter 9 Research Conclusion

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Key Questions Covered In the Report

Contact Us

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Thanks for reading this article you can also get individual chapter-wise sections or region-wise report versions like North America, Europe, MEA, or the Asia Pacific.

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Credible Markets has emerged as a dependable source for the market research needs of businesses within a quick time span. We have collaborated with leading publishers of market intelligence and the coverage of our reports reserve spans all the key industry verticals and thousands of micro markets. The massive repository allows our clients to pick from recently published reports from a range of publishers that also provide extensive regional and country-wise analysis. Moreover, pre-booked research reports are among our top offerings.


Biochar Market, Global Trends, Business Overview, Challenges, Opportunities Analysis and …

4 March, 2021
 

A new informative report titled Global Biochar Market Analysis 2016-2020 and Forecast 2021-2026” has recently published by Credible Markets to its humongous database which helps to shape the future of the businesses by making well-informed business decisions. It offers a comprehensive analysis of various business aspects such as COVID-19 impact analysis impacts, global market trends, recent technological advancements, market shares, size, and new innovations. Furthermore, this analytical data has been compiled through data exploratory techniques such as primary and secondary research. Moreover, an expert team of researchers throws light on various static as well as dynamic aspects of the global Biochar market.

Biochar Market report provides an in-depth review of the Expansion Drivers, Potential Challenges, Distinctive Trends, and Opportunities for market participants to equip readers to totally comprehend the landscape of the Biochar market. Major prime key manufacturers enclosed within the report alongside Market Share, Stock Determinations and Figures, Contact information, Sales, Capacity, Production, Price, Cost, Revenue and Business Profiles. The main objective of the Biochar industry report is to Supply Key Insights on Competition Positioning, Current Trends, Market Potential, Growth Rates, and Alternative Relevant Statistics.

Request for Sample with Complete TOC and Figures & Graphs @ https://www.crediblemarkets.com/sample-request/biochar-market-837934?utm_source=Sanjay&utm_medium=SatPR

Product Type Coverage (Market Size & Forecast, Major Company of Product Type etc.):

⦿ Wood Source Biochar
⦿ Corn Stove Source Biochar
⦿ Rice Stove Source Biochar
⦿ Wheat Stove Source Biochar
⦿ Other Stove Source Biochar

Company Coverage (Company Profile, Sales Revenue, Price, Gross Margin, Main Products etc.):

⦿ Diacarbon Energy
⦿ Agri-Tech Producers
⦿ Biochar Now
⦿ Carbon Gold
⦿ Kina
⦿ The Biochar Company
⦿ Swiss Biochar GmbH
⦿ ElementC6
⦿ BioChar Products
⦿ BlackCarbon
⦿ Cool Planet
⦿ Carbon Terra
⦿ Pacific Biochar
⦿ Vega Biofuels
⦿ Liaoning Jinhefu Group
⦿ Hubei Jinri Ecology-Energy
⦿ Nanjing Qinfeng Crop-straw Technology
⦿ Seek Bio-Technology (Shanghai)

Application Coverage (Market Size & Forecast, Different Demand Market by Region, Main Consumer Profile etc.):

⦿ Soil Conditioner
⦿ Fertilizer
⦿ Others

Region Coverage (Regional Production, Demand & Forecast by Countries etc.):

⦿ North America (U.S., Canada, Mexico)
⦿ Europe (Germany, U.K., France, Italy, Russia, Spain etc.)
⦿ Asia-Pacific (China, India, Japan, Southeast Asia etc.)
⦿ South America (Brazil, Argentina etc.)
⦿ Middle East & Africa (Saudi Arabia, South Africa etc.)

Direct Purchase this Market Research Report Now @ https://www.crediblemarkets.com/reports/purchase/biochar-market-837934?license_type=single_user;utm_source=Sanjay&utm_medium=SatPR

Some Points from Table of Content

Global Biochar Market Analysis 2016-2020 and Forecast 2021-2026

Chapter 1 Industry Overview

Chapter 2 Industry Environment (PEST Analysis)

Chapter 3 Biochar Market by Type

Chapter 4 Major Companies List

Chapter 5 Market Competition

Chapter 6 Demand by End Market

Chapter 7 Region Operation

Chapter 8 Marketing & Price

Chapter 9 Research Conclusion

Do You Have Any Query Or Specific Requirement? Ask to Our Industry Expert @ https://www.crediblemarkets.com/enquire-request/biochar-market-837934?utm_source=Sanjay&utm_medium=SatPR

Key Questions Covered In the Report

Contact Us

Credible Markets Analytics

99 Wall Street 2124 New York, NY 10005

Contact No: +1(929)-450-2887

Email: [email protected]

 

Thanks for reading this article you can also get individual chapter-wise sections or region-wise report versions like North America, Europe, MEA, or the Asia Pacific.

https://bisouv.com/

Credible Markets has emerged as a dependable source for the market research needs of businesses within a quick time span. We have collaborated with leading publishers of market intelligence and the coverage of our reports reserve spans all the key industry verticals and thousands of micro markets. The massive repository allows our clients to pick from recently published reports from a range of publishers that also provide extensive regional and country-wise analysis. Moreover, pre-booked research reports are among our top offerings.


Global Biochar Market 2020 | Worldwide Opportunities, Historical Analysis, Trends, Driving Forces …

4 March, 2021
 

Reportspedia published a new version of Biochar Market Research Report in the year 2021 which provides forecast data until 2026. This report offers a detailed insights on global Biochar market focusing insights on its different major market segments. Qualitative data such as drivers, restraints, SWOT Analysis and PESTEL analysis, COVID-19 impacts, etc. are provided in the report. The report provides insights on global Biochar market by product type, application, end-user and major geographic regions as well as countries.

This report delivers PEST analysis of each region so that the current players as well as new entrants get healthy and in-depth knowledge about the market scenario. The report offers forecast market numbers based on several aspects such as the current situation, upcoming barriers, etc. that could affect the market condition in the near future.

To get Sample copy of Biochar Market Report Visithttps://www.reportspedia.com/report/chemicals-and-materials/global-biochar-market-report-2020-by-key-players,-types,-applications,-countries,-market-size,-forecast-to-2026-(based-on-2020-covid-19-worldwide-spread)/68276#request_sample

Key Players of Biochar Market Research Report:

Players Profile is a completely customizable part of report, we can include the company’s information as per your choice.

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Below are the Key Attributes of Global Biochar Market Report:

Major Segmentation Analysis of Biochar Market Report are as follows:

Biochar Market By Type:

Agriculture Waste
Forestry Waste
Animal Manure
Biomass Plantation

Market By Application/End-User:

Gardening
Agriculture
Household

If You have any Query | Ask here: https://www.reportspedia.com/report/chemicals-and-materials/global-biochar-market-report-2020-by-key-players,-types,-applications,-countries,-market-size,-forecast-to-2026-(based-on-2020-covid-19-worldwide-spread)/68276#inquiry_before_buying

Biochar Market By Region/Country:

This report can be customized as per your requirement for e.g. any country/region specific report, segments customization, etc.

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Some of the Important Questions answered in this Report:

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Looking for alternatives to open fire burns

4 March, 2021
 

Aftermath of forest fire (Photo contributed)

Wetzin’kwa Community Forest is exploring opportunities to dispose of harvesting residue (waste wood) using alternatives to open burning.

“It is the goal of the Ministry of Forests, Land and Natural Resource Operations (FLNRO) and community partners to reduce the amount of waste wood, open burning, and reduce the fuels that pose a wildfire threat to infrastructure and communities,” according to Patrick Ferguson, FLNRO wildfire prevention officer.

READ MORE: B.C. wildfire crews have battled 111 blazes in the last seven days

In a report to Smithers Council Nov. 8, 2020, FLNRO reported a reduction of waste wood (and the need for burning) by 66 per cent from using Pinnacle Pellet and Seaton Forest Products, in thinning and clearing areas of high risk for wildfires.

Sites on Hudson Bay Mountain, such as Wetzin’kwa Community Forest, have been identified as high risk areas and to alleviate wildfire risks many harvesting operations, current and planned, focus on reducing high hazard fuel types and are important in decreasing overall wildfire risk to the area.

“Currently, an operational treatment will be conducted in partnership with Hudson Bay Mountain, BC Wildfire Service, Wetzin’kwa Community Forest Corporation, and Mountain Resorts Branch,” the Wetzin’kwa website states. “This includes just under 120 hectares of fuel reduction treatment area along the primary access road to the ski village base and north along the access road to the Skyline Triple Chair base.”

The organization plans a phased approach, first focusing on the treatment units along the lower half of the Hudson Bay Mountain Road this fall/winter with the remainder to be completed in 2022.

READ MORE: Planning underway for this year’s forest fire season while under a public health emergency

“We cannot commit to eliminating open burning completely during these operations, as in some circumstances it’s the only viable option, but we are engaging with local operators who may own air curtain burners, biochar creation systems and other alternates to open burning,” said Jay Baker, general manager of Wetzin’kwa Community Forest

Other plans for wildfire mitigation this year will be at what local people call “The Bluff” area (behind CN Rail) and Seymour Ridge Core Habitat region as well as the community forest.

“We are trying to find an acceptable balance of removing potentially dangerous fire materials, and to avoid burning as much as we can,” Baker concluded.


deb.meissner@interior-news.com

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Open burning (Black Press Media)


Impact Assessment of COVID-19 Outbreak on Biochar Market

4 March, 2021
 

Global Biochar Market: Snapshot

Biochar can in fact be produced using any biomass products and is made through an energy transformation process called pyrolysis. Pyrolysis is the ignition of biomass in the total or close to nonappearance of oxygen. The yields of pyrolysis—along with biochar — are heat, oils, and gases, every single imaginable source of sustainable energy. The amount and nature of these yields rely upon the sort (or blend) of biomass utilized and the handling conditions under which is created. Appropriate rates and techniques for biochar application in crop creation are as yet not surely knew, and use in farming creation is right now low. However looking at the energy crisis lurking up ahead, the global biochar market shall grow exponentially in coming years.

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Incrementing from its evaluated worth of US$444.2 thousand in 2016, the global biochar market is projected to experience a CAGR of 14.5% during the forecast period of 2017 to 2025 and reach a valuation of US$14,751.8 thousand by 2025. Some of the key factors driving the demand in the global biochar market are: rising demand for organic food, growing application in soil enhancement, benefits pertaining to waste management, stringent government regulatory for soil preservation, investment in the bio-fuels sector, and increasing environmental concerns. Conversely, lack of consumer awareness and higher cost as opposed to chemical alternatives are a few challenges faced by the global biochar market.

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Based on feedstock used for the production, the global biochar market has been segmented into woody biomass, agricultural waste, animal manure and others, including rice, coconut, sugarcane, corn, cereals, and bamboo. In 2016, wood biomass segment accounted for nearly the half of the overall demand in the global biochar market. Wood waste that is converted into biochar is used as valuable soil amendment product. Improving the health and quality of soil is a high priority in forestry, agriculture, and gardening. Biochar is not only economical, but is also ecofriendly.  It improves the soil fertility as well as increases nutrient and water retention and reduces soil acidity.

The global biochar market gains second most prominent demand in terms of feedstock used for production from agricultural waste. Referred as magnetic biochar, as it exhibits good magnetic property with high surface area and significant morphology, these products have wide application as an adsorbent in wastewater treatment and polymer.

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Geographically, every important region has been evaluated for its potential for biochar market, including North America, Europe, Asia Pacific, The Middle East and Africa, and Latin America. In terms of volume and value, North America serves the maximum demand in the global biochar market, accounting for more than 50% share of the global biochar market in 2016. Increasing demand of soil amendment and carbon sequestration has been detected as the major factors driving the North America biochar market in the recent past. Demand for biochar is stable in Europe and is projected to show significant growth in the coming forecast period. Exponential growth in the biofuel sector in Asia Pacific is projected to boost the demand for biochar in the near future. Emerging economies such as India, China, and Japan are expected to have major market share in the coming forecast period. Large number of biochar producers are from China and Japan, which makes biochar inexpensive for them as compared to other countries. Latin America is anticipated to provide growth to biochar market in the next few years. Middle East & Africa is expected to boost the biochar market at a steady rate in the coming future.

Genesis Industries LLC, Vega Biofuels, Inc., Phoenix Energy, Full Circle Biochar, Pacific Biochar, Diacarbon Energy Inc., Earth Systems Bioenergy, Pacific Pyrolysis Pty Ltd, Agri-Tech Producers, LLC, Biochar Supreme LLC, CharGrow, LLC, and Cool Planet Energy Systems are some of the prominent companies currently functional in the global biochar market.

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Our data repository is continuously updated and revised by a team of research experts, so that it always reflects the latest trends and information. With a broad research and analysis capability, Transparency Market Research employs rigorous primary and secondary research techniques in developing distinctive data sets and research material for business reports.


Wood Vinegar Market Competitive Landscape, Insights by Geography, and Growth Opportunity

4 March, 2021
 

Factors driving the growth of the global market include improved crop yields, increased base of end-use industries, increased government initiatives for bio-based products, and strict environmental regulations. The main trend observed in the world market is the reduction of poverty. Wood vinegar can be produced on a small or large scale in villages, using local resources and raw materials. The production of wood vinegar helps reduce poverty in many developing and underdeveloped countries. The global wood vinegar market is in its nascent form.

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Currently, very few players around the world are involved in the large-scale production of wood vinegar. However, different governments and organizations in several countries around the world are developing regulations for the bioeconomy and promoting bio-based products, which support the growth of biochar production and biorefineries. As wood vinegar is a by-product of arctic char or biochar production, government initiatives are indirectly creating abundant opportunities for the growth of the global wood vinegar market.

In 2015, Asia-Pacific held the largest share of the global wood vinegar market. The main reasons for the market growth in the region are the large base of end-use industries and the presence of a large number of local manufacturers in the region.

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Some of the major players operating in the global wood vinegar market are Ace (Singapore) Pte Ltd., TAGROW CO. LTD., Byron Biochar, Canada Renewable Bioenergy Corporation, NAKASHIMA TRADING CO. LTD., Nettenergy BV and Taiko Pharmaceutical Co. Ltd.


Biochar affects growth and shoot nitrogen in four crops for two soils | Science Inventory | US EPA

4 March, 2021
 

Olszyk, D., T. Shiroyama, J. Novak, K. Cantrell, G. Sigua, D. Watts, AND M. Johnson. Biochar affects growth and shoot nitrogen in four crops for two soils. Agrosystems, Geosciences & Environment. John Wiley & Sons, Inc., Hoboken, NJ, , e20067, (2020). https://doi.org/10.1002/agg2.20067

Biochar is the carbon-rich material remaining after pyrolysis of cellulosic and manure feedstocks. It has potential as a soil amendment to sequester carbon and to improve soil water-holding and nutrient properties- thereby enhancing plant growth. However, biochar produced from some feedstocks also could adversely affect crop quality by changing soil pH and reducing nutrients in plant tissues. To evaluate these effects of biochar on the nutrient quality of four crops, we conducted a study with pots in the greenhouse using carrot, corn, lettuce and soybean. Plants were grown in one of two sandy soils from South Carolina, along with biochar (1% by weight) produced from two types of manure, poultry litter and swine solids; two types of cellulose, switchgrass and pine chips; and two blends of pine chips plus poultry litter. Each of the feedstocks and feedstock blends was produced at 350, 500, and 700 ̊ C to determine impact of pyrolysis temperature on the effects of the biochar. The type of crop, soil type, and feedstock source and production temperature all affected concentrations of nutrients in leaf tissue. These results indicate that plant leaf tissue nutrient quality is impacted by the type of biochar and its pyrolysis temperature. Thus, when using biochar as a soil amendment, the potential nutrient changes must be considered during the production of the crops

To address the need for information on biochar effects on crop growth and nitrogen (N), a greenhouse study was conducted with carrot, lettuce, soybean, and sweet corn using sandy loam (Coxville series) and loamy sand (Norfolk series) soils and a variety of biochars. Biochar was produced from pine chips (PC), poultry litter (PL), swine solids (SS), switchgrass (SG), and two blends of PC plus PL (50/50% [55] and 80/20% [82], wt/wt), with each feedstock pyrolyzed at 350, 500, or 700 ˚C. The results confirmed that biochar can increase crop growth; however, the responses varied with crop, soil, and feedstock and to a lesser extent with pyrolysis temperature. In general, lettuce had large increases in shoot and root dry weights vs. no‐biochar controls with many biochars, primarily the SS and 55 blend and to a lesser extent with 82 followed by PL, and then PC and SG, especially when grown in the Coxville soil. Biochar had more limited effects on carrot, sweet corn, and soybean weights. Some biochars decreased crop growth (e.g., PL at 700 ˚C) for soybean shoot and pod dry weights with the Norfolk soil. Shoot N concentrations decreased with SS, 55, and 82 for carrot, lettuce, and sweet corn with the Norfolk soil but tended to increase for soybean. Shoot N uptake increased or decreased depending on biochar feedstock and temperature, crop, and soil. These results confirm that biochar can increase crop growth and affect shoot N, which is essential for crop growth.Methods Plants were grown using sandy loam (Coxville series) and loamy sand (Norfolk series) soils, with biochar produced from six feedstocks: pine chips (PC), poultry litter (PL), swinesolids (SS), switchgrass (SG), and two blends of PC plus PL (PC/PL, 50/50% and 80/20% w/w). Biochar from each feedstock was produced at 350, 500 and 700˚C. Results Biochar PC/PL mixtures and SS, and to a lesser extent PL followed by PC and SG, increased lettuce shoot and root growth (dry weight) compared with the no biochar control, especially when grown in the Coxville soil. The PL/PC and SS biochars generally decreased lettuce leaf % N, P, Ca and Mg; while K generally increased with PL, but decreased with SS with both soils. The PC and SG biochars caused some reduction in lettuce leaf % N, P, Ca, Mg, and K especially in the Coxville soil. Biochar effects on growth and nutrients for the other crops were more varied. Conclusion This study indicated that while biochar can increase crop growth in these two soils, it can decrease leaf nutrients concentrations important for plant growth, especially N.


Global Biochar Market SWOT Analysis, Key Indicators, Forecast 2027 : Airex Energy, BSEI …

4 March, 2021
 

The research report titled “Biochar Market: Global Industry Analysis, Size, Share, Growth, Trends, And Forecast, 2020-2026” and published by “Zion Market Research” is an in-depth and dedicated scrutiny of the existing stats of the global Biochar market entailing the numerous facets pertinent to statistics and growth of the business. The report segregated into diverse sections to simplify the comprehension of the included data and thus, market dynamics. It encompasses all the major competitors and players Airex Energy, BSEI, Diacarbon Energy, Pacific Pyrolysis, Phoenix Energy, 3R ENVIRO TECH Group, Biochar Supreme, Cool Planet Energy Systems. involved in the global Biochar market along with the various features relating to the market players like company profiles, supply chain value, product specifications, market shares, and so on. Also, the report entails the major strategic market developments, comprising R&D activities, collaborations, new product launch, agreements, joint ventures, partnerships, M&A, and presence & expansion extent of these prominent players on the global and regional scale. In addition, it comprises the systematic examination of business strategies for expansion of the prominent Biochar market players.

Free | Sample copy of the report @ https://www.zionmarketresearch.com/sample/biochar-market

The major players in the market include :

Airex Energy, BSEI, Diacarbon Energy, Pacific Pyrolysis, Phoenix Energy, 3R ENVIRO TECH Group, Biochar Supreme, Cool Planet Energy Systems

The Biochar market report encompasses the general idea of the global Biochar market including definition, classifications, and applications. Further, it includes the all-inclusive comprehension of several factors such as drivers, constraints, and major micro markets. The report is a wide-ranging source of widespread facts and figures for business strategists as it offers the historical &futuristic data such as demand & supply data, cost, revenue, profit, supply chain value, and so on. Furthermore, it entails the key market features, comprising production, revenue, price, capacity, gross margin, market share, consumption, gross, production rate, demand/supply, cost, capacity utilization rate, export/import, and CAGR (compound annual growth rate). In addition the report encompasses global Biochar market segmentation on the basis of diverse facets like product/service type, application, technology, end-users, and major geographic regions North America, Europe, Asia-Pacific and Latin America. Apart from this, the researcher market analyst and experts present their outlook or insights of product sales, market share, and value along with the possible opportunities to grow or tap into in these regions.

Promising Regions & Countries Mentioned In The Biochar Report:

Download Free PDF Report Brochure @ https://www.zionmarketresearch.com/requestbrochure/biochar-market

The Biochar market report also entails the vigorous evaluation about the growth plot and all opportunities &risk related to of global Biochar market during the forecast period. In addition, the report comprises the key events and most recent innovations in the industry together with the prospective trends technological progresses within the global Biochar market that can impact its expansion graph. Entailing the pivotal data on the market’s statistics and dynamics, the report will serve as a valued asset in term of decision-making and guidance for the businesses and companies already active within industry or looking forward to enter into it.

Some Major Points in TOC Covered :

To view TOC of this report is available upon request @ MarketToc

Reason to Buy

Inquire more about this report @ https://www.zionmarketresearch.com/inquiry/biochar-market

Also, Research Report Examines:

Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.


Global Biochar Market SWOT Analysis, Key Indicators, Forecast 2027 : Airex Energy, BSEI …

4 March, 2021
 

The research report titled “Biochar Market: Global Industry Analysis, Size, Share, Growth, Trends, And Forecast, 2020-2026” and published by “Zion Market Research” is an in-depth and dedicated scrutiny of the existing stats of the global Biochar market entailing the numerous facets pertinent to statistics and growth of the business. The report segregated into diverse sections to simplify the comprehension of the included data and thus, market dynamics. It encompasses all the major competitors and players Airex Energy, BSEI, Diacarbon Energy, Pacific Pyrolysis, Phoenix Energy, 3R ENVIRO TECH Group, Biochar Supreme, Cool Planet Energy Systems. involved in the global Biochar market along with the various features relating to the market players like company profiles, supply chain value, product specifications, market shares, and so on. Also, the report entails the major strategic market developments, comprising R&D activities, collaborations, new product launch, agreements, joint ventures, partnerships, M&A, and presence & expansion extent of these prominent players on the global and regional scale. In addition, it comprises the systematic examination of business strategies for expansion of the prominent Biochar market players.

Free | Sample copy of the report @ https://www.zionmarketresearch.com/sample/biochar-market

The major players in the market include :

Airex Energy, BSEI, Diacarbon Energy, Pacific Pyrolysis, Phoenix Energy, 3R ENVIRO TECH Group, Biochar Supreme, Cool Planet Energy Systems

The Biochar market report encompasses the general idea of the global Biochar market including definition, classifications, and applications. Further, it includes the all-inclusive comprehension of several factors such as drivers, constraints, and major micro markets. The report is a wide-ranging source of widespread facts and figures for business strategists as it offers the historical &futuristic data such as demand & supply data, cost, revenue, profit, supply chain value, and so on. Furthermore, it entails the key market features, comprising production, revenue, price, capacity, gross margin, market share, consumption, gross, production rate, demand/supply, cost, capacity utilization rate, export/import, and CAGR (compound annual growth rate). In addition the report encompasses global Biochar market segmentation on the basis of diverse facets like product/service type, application, technology, end-users, and major geographic regions North America, Europe, Asia-Pacific and Latin America. Apart from this, the researcher market analyst and experts present their outlook or insights of product sales, market share, and value along with the possible opportunities to grow or tap into in these regions.

Promising Regions & Countries Mentioned In The Biochar Report:

Download Free PDF Report Brochure @ https://www.zionmarketresearch.com/requestbrochure/biochar-market

The Biochar market report also entails the vigorous evaluation about the growth plot and all opportunities &risk related to of global Biochar market during the forecast period. In addition, the report comprises the key events and most recent innovations in the industry together with the prospective trends technological progresses within the global Biochar market that can impact its expansion graph. Entailing the pivotal data on the market’s statistics and dynamics, the report will serve as a valued asset in term of decision-making and guidance for the businesses and companies already active within industry or looking forward to enter into it.

Some Major Points in TOC Covered :

To view TOC of this report is available upon request @ MarketToc

Reason to Buy

Inquire more about this report @ https://www.zionmarketresearch.com/inquiry/biochar-market

Also, Research Report Examines:

Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.


Biochar Market Outlook 2021 – World Analysis, Investment Opportunity, Growth Strategies …

4 March, 2021
 

The Global Research Report Provides a Detailed Analysis of Biochar Market Based On Competitive Intensity and How The Competition Will Take Shape in Coming Years.

The Biochar Market acknowledge Size, Application Segment, Type, Regional Outlook, Market Demand, Latest Trends, and Biochar Market Share & Revenue by Manufacturers, Leading Companies Profiles, Future Growth Potential Forecasts. In the next few years, analyses the current market size and development in this sector. The report offers a critical supposition identifying with the Global Biochar Market by examining its division. The global market that compares to the Biochar Market size, share, increase factor, key vendors, revenue, product demand, sales size, quantity, cost structure, and new development in the Biochar Market. The report provides also data on patterns and improvements, and target business sectors and materials, limits and advancements. While formulating this Biochar Market research report, the key attributes that have been adopted include highest level of spirit, practical solutions, committed research and analysis, innovation, integrated approaches, and most up-to-date technology.

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Global Biochar market research report released recently predicts a promising growth trajectory within the estimated forecast time-frame. The report is designed to gauge effectively into prominent industry relevant events and developments that play crucial role in growth stabilization. This mindfully designed report is a blueprint of the current market conditions to equip its readers, comprising new investors, established behemoths as well a other stakeholders who constantly depend on veritable industry cues to deliver growth proficient investment decisions.

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Top Leading Key Players are:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

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A comprehensive microscopic view of Biochar market an all the important aspects associated with the same is offered in the global Biochar market report. The key market research report offers an insightful data on market risks and opportunities. The risk analysis covered in the Biochar industry report helps vendors and manufacturers over the globe to eliminate the challenges. An in-depth analysis of the performance of the Biochar industry over the years along with the ups and downs is involved in the research report. This helps the users to understand the change in the market dynamics over the years globally. The research report holds the necessary data regarding the valuation of the market in the past years and also includes the prediction for the size and volume of the market in the forecasted period with the reliable data.

The market report also provides users with a complete study of performance of Biochar market throughout the years with the help of reliable numerical data. The detailed study on major market aspects such as future scope, market values and potential customer base is included in the market report. In addition to that the Biochar market report includes all the vital information regarding latest technologies and trends being introduced in the Biochar industry. The market study offers a microscopic overview and dependable prediction for future market size in the future years. The research provides an analysis on the strategic developments made in the Biochar sector. The Biochar market report takes a detailed note on the major industrial events in past years.

Global Biochar market is segmented based by type, application and region.
Based on Type, the market has been segmented into:

by Technology (Pyrolysis, Gasification and Others)

Based on application, the market has been segmented into:

by Application (Agriculture and Others)

3-Pointer Guide to Report Investment:
* A thorough qualitative and quantitative assessment with key highlights on trends, vendor activity and regional developments
* Major investment hubs across regions
* An effective pandemic management guide to refurbish offerings and realign business objectives.

Key Questions Addressed by the Report
1. What are the opportunities in Biochar market?
2. What is the competitive landscape in the market?
3. What are the data regulations that will impact the market?
4. What are the major growth factors for the regions?
5. What are the dynamics of the market

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4. Identify hidden opportunities of Biochar market with globally rising CAGR forecast till 2025.
5. Calculate the key problems, product developments, and solutions to manipulate the progress threat.

Table of Contents:
Global Biochar Market Overview
Economic Impact on Industry
Market Competition by Manufacturers
Production, Revenue (Value) by Region
Production, Revenue (Value), Price Trend by Type
Market Analysis by Application
Cost Analysis

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Compost from municipal solid wastes as a source of biochar for CO2 … – Biblioteca Digital do IPB

4 March, 2021
 

Promotores do RCAAP:

Financiadores do RCAAP:


Full article: Effects of Biochar on Replant Disease by Amendment Soil Environment

4 March, 2021
 

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Biochar Soil Additive – farm & garden – by owner – sale

5 March, 2021
 

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North America Biochar Sales Market – NeighborWebSJ

5 March, 2021
 

The global Biochar Sales market was xx million US$ in 2020 and is expected to xx million US$ by the end of 2028, growing at a CAGR of xx% between 2021 and 2028. A new file as an Biochar Sales market that consists of a comprehensive analysis of the global market. This includes investigating beyond […]


Hydrological Properties of a Clay Loam Soil as Affected by Biochar Application in a Pot Experiment

5 March, 2021
 

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Libutti, A.; Francavilla, M.; Monteleone, M. Hydrological Properties of a Clay Loam Soil as Affected by Biochar Application in a Pot Experiment. Agronomy 2021, 11, 489. https://doi.org/10.3390/agronomy11030489

Libutti A, Francavilla M, Monteleone M. Hydrological Properties of a Clay Loam Soil as Affected by Biochar Application in a Pot Experiment. Agronomy. 2021; 11(3):489. https://doi.org/10.3390/agronomy11030489

Libutti, Angela; Francavilla, Matteo; Monteleone, Massimo. 2021. “Hydrological Properties of a Clay Loam Soil as Affected by Biochar Application in a Pot Experiment” Agronomy 11, no. 3: 489. https://doi.org/10.3390/agronomy11030489

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Impact of COVID-19 on Wood Vinegar Market by 2027 |Ace (Singapore) Pte Ltd, Canada …

5 March, 2021
 

Wood Vinegar Market research report is the new statistical data source added by A2Z Market Research.

“Wood Vinegar Market is growing at a High CAGR during the forecast period 2021-2027. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market”.

Wood Vinegar Market research is an intelligence report with meticulous efforts undertaken to study the right and valuable information. The data which has been looked upon is done considering both, the existing top players and the upcoming competitors. Business strategies of the key players and the new entering market industries are studied in detail. Well explained SWOT analysis, revenue share and contact information are shared in this report analysis.

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Note – In order to provide more accurate market forecast, all our reports will be updated before delivery by considering the impact of COVID-19.

Top Key Players Profiled in this report are:

Ace (Singapore) Pte Ltd, Canada Renewable Bioenergy Corp., Nettenergy Bv, Tagrow Co., Ltd., Byron Biochar, New Life Agro, Verdi Life, Nakashima Trading Co. Ltd., Penta Manufacturer, Doi & Co., Ltd.

The key questions answered in this report:

Various factors are responsible for the market’s growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Wood Vinegar market. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market. The influence of the latest government guidelines is also analyzed in detail in the report. It studies the Wood Vinegar market’s trajectory between forecast periods.

Global Wood Vinegar Market Segmentation:

Market Segmentation: By Type

Slow Pyrolysis
Fast Pyrolysis
Intermediate Pyrolysis

Market Segmentation: By Application

Agriculture
Animal Feed
Food, Medicinal, And Consumer Products

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Regions Covered in the Global Wood Vinegar Market Report 2021:
The Middle East and Africa (GCC Countries and Egypt)
North America (the United States, Mexico, and Canada)
South America (Brazil etc.)
Europe (Turkey, Germany, Russia UK, Italy, France, etc.)
Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

The cost analysis of the Global Wood Vinegar Market has been performed while keeping in view manufacturing expenses, labor cost, and raw materials and their market concentration rate, suppliers, and price trend. Other factors such as Supply chain, downstream buyers, and sourcing strategy have been assessed to provide a complete and in-depth view of the market. Buyers of the report will also be exposed to a study on market positioning with factors such as target client, brand strategy, and price strategy taken into consideration.

The report provides insights on the following pointers:

Market Penetration: Comprehensive information on the product portfolios of the top players in the Wood Vinegar market.

Product Development/Innovation: Detailed insights on the upcoming technologies, R&D activities, and product launches in the market.

Competitive Assessment: In-depth assessment of the market strategies, geographic and business segments of the leading players in the market.

Market Development: Comprehensive information about emerging markets. This report analyzes the market for various segments across geographies.

Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the Wood Vinegar market.

Table of Contents

Global Wood Vinegar Market Research Report 2021 – 2027

Chapter 1 Wood Vinegar Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Wood Vinegar Market Forecast

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Newark Officials Host Public Meeting to Discuss Proposed Ironbound Industrial Facility

5 March, 2021
 

NEWARK, NJ — An industrial energy project proposed for Newark’s Ironbound that has been a subject of concern among local environmental advocates was discussed at length on Thursday during a virtual meeting hosted by city officials. 

The project calls for the construction of a biochar production facility off an existing site on the Lower Passaic River. The applicant, Aries Clean Energy, was slated to present its site plan during a Feb. 22 planning board meeting, however, the board adjourned the hearing after a written request from Deputy Mayor and Director of Economic and Housing Development Allison Ladd called for more community engagement and time for the environmental commission to review the project.

As part of initiating more public input, Newark Mayor Ras Baraka was joined by state officials Sen. M. Teresa Ruiz, and assemblywomen Eliana Pintor Marin and Shanique Speight to discuss the proposed facility. 

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“What we need to do better is make sure that we get together and begin to figure out what we want as a collective and what’s good for us as a city,” Baraka said during the meeting. “We don’t want anything that’s going to add to the footprint in our city that creates more pollution, that puts more matter in the air – that makes it more difficult for us to breathe, that puts our health at risk. We obviously don’t want that in the city… If that’s what this is, then we obviously would be opposed to that.” 

The applicant plans to construct a facility that will convert human waste into a product known as biochar. The facility would transform organic material into products by thermally heating biosolids from regional wastewater treatment facilities and volumetrically reduce them by approximately 95%. The plant is also proposed to use thermal energy systems to convert 470 tons of biosolids per day into 22 tons of biochar.

The wastewater is collected locally and treated at separate facilities, according to Chris Kidd, Aries’ director of business development. The human waste, or biosolids, separated out from the treated wastewater are then brought to the Newark plant and converted through gas combustion into biochar products, which the company said it plans to sell as a concrete base.

As a Newark resident, Ruiz had apprehensions towards the project, citing the Ironbound’s already depleted air quality and its effects on the community. 

“I don’t know about anyone else who lives in the city of Newark, but I see the statistics, continuously – asthma rates compelling our children, the transportation infrastructure that gets bled by all of the major highways in New Jersey, and many of them shifting through two major wards in the city – in the South and East ward,” she said. “What impacts one city, one ward, one street, one block, one neighborhood – impacts us all.”  

The project has been met with pushback from the public and officials regarding particular concerns such as potential smells, transportation to-and-from the site and exacerbating the area’s air quality. Aries claims that the site would do otherwise.

“The reality is that this project is a benefit to the region,” Elnardo Webster, the applicant’s attorney said. “This project actually reduces the amount of emissions that are going to be impacted by the folks in the Ironbound. It actually reduces truck traffic.”

With a truck depot currently sited at the facility’s proposed location, it houses approximately 100 trucks and generates nearly 400 trips a day to-and-from the site. Aries claims that their operations would reduce local hauling traffic on Doremus Avenue by approximately 110,000 trips per year and cut back on air pollution. 

“There will be a net decrease in greenhouse gas emissions,” Aries’ Chemical Engineer Joel Thornton said. “I do not want to misrepresent that there is an emissions profile associated with the site, but overall, when you consider the landfilling of the material that currently occurs and the breakdown of that material generating a large amount of methane, there will be a net decrease of emissions in the area.” 

No odors would be emitted from the site’s manufacturing buildings as well, according to Aries. The applicant claims that buildings on site would be enclosed and kept under negative pressure, and biosolids would be delivered in closed, watertight container trucks to mitigate the threat of odors. 

Although Aries said the facility will bring various benefits to the area, Kim Gaddy, a Newark resident and environmental justice organizer for Clean Water Action of New Jersey, said that the city has already experienced severe effects from pollution and worries that the site’s operations will incur additional repercussions. 

"We have suffered from disproportionate pollution in our communities. Our communities are dying from asthma, heart attacks and all kinds of kidney failures because of the cumulative impacts of pollution sources that we suffer from, unfairly," Gaddy said.

As the project comes before the city again in the coming weeks, Ironbound Community Corporation Deputy Director Maria Lopez-Nunez said the community advocates plan to contest it. 

“We are saying enough is enough,” Lopez-Nunez said.

NEWARK, NJ — Newark’s public and charter schools will receive funding from Gov.

NEWARK, NJ — For more than 40 years, Newark Emergency Services for Families (NESF) has worked to stabilize families and individuals in crises in the community and Greater Essex County, but nothing could have prepared the local non-profit organization for a global pandemic. 

As COVID-19 dealt a devastating blow to the city Newark and the county, NESF’s shelter and food pantry drop-ins volume …

NEWARK, NJ — For more than 40 years, Newark Emergency Services for Families (NESF) has worked to …

NEWARK, NJ — Nearly three acres of city-owned property near West Side High School is planned to receive major redevelopment improvements after several decades of neglect. 

As a result of contributions from various community stakeholders and a competitive bid process which evaluated proposals submitted by 12 developers, Newark Mayor Ras Baraka announced on Wednesday that two developer …

NEWARK, NJ — Nearly three acres of city-owned property near West Side High School is planned to …

NEWARK, NJ — Three Essex County men admitted conspiring to defraud two banks of $250,000 using stolen credit cards and blank checks, Acting U.S. Attorney Rachael A. Honig announced today.

Nasheed Jackson, 24, of Newark, Alexander Varice, 22, and Dashawn Duncan, 27, both of South Orange, pleaded guilty this week by video conference before U.S. District Judge Susan D. Wigenton to informations …

NEWARK, NJ — Three Essex County men admitted conspiring to defraud two banks of $250,000 using …

NEWARK, NJ — A Newark high school student stood out among 25 competitors throughout the state to take home the win for a design contest sponsored by the New Jersey Department of Education. 

As part of Career and Technical Education (CTE) Month programming, Neshawn Perkins, a ninth-grade student at Newark Vocational High School won the CTE logo design contest, the New Jersey State Board of …

NEWARK, NJ — A Newark high school student stood out among 25 competitors throughout the state to …

With workers and businesses slammed, calls for more government aid to ‘supercharge’ the economy.

Special to TAPinto.net. This story was written and produced by NJ Spotlight. It is being republished under a special NJ News Commons content-sharing agreement related to COVID-19 coverage. To read more, visit njspotlight.com.

A year after the first cases of the coronavirus brought on statewide …

With workers and businesses slammed, calls for more government aid to ‘supercharge’ the …

NEWARK, NJ — The recipients of a third round of emergency funding for small businesses in Newark affected by the COVID-19 pandemic were announced on Monday. 

The Small Business Grant Fund, created in March 2020, is aimed to support Brick City’s small businesses impacted by the pandemic and help them to survive the current crisis, retain as many employees as possible, adapt, and …

NEWARK, NJ — The recipients of a third round of emergency funding for small businesses in Newark …

TRENTON, NJ — Anyone planning a wedding can expand the guest list now, following Gov. Phil Murphy’s COVID press briefing in Trenton on Wednesday, when he announced that wedding receptions may proceed at 35% of a venue’s indoor capacity (up to 150 persons) and up to 150 people outdoors. Indoor receptions must abide by indoor dining guidelines. Attendees must wear face covers unless seated and …

TRENTON, NJ — Anyone planning a wedding can expand the guest list now, following Gov. Phil …

Gov. Phil Murphy had less than two weeks to act with more than $700 million in overdue bills pending.

Special to TAPinto.net. This story was written and produced by NJ Spotlight. It is being republished under a special NJ News Commons content-sharing agreement related to COVID-19 coverage. To read more, visit njspotlight.com.

Gov. Phil Murphy said that a moratorium on shut-offs of gas, …

Gov. Phil Murphy had less than two weeks to act with more than $700 million in overdue bills …

NEWARK, NJ — When BRICK Education Network stepped in to manage Newark’s Marion P. Thomas Charter School in 2019, the school suffered from high staff turnover and low-test scores.

In the 2018-19 school year, only 29% of the students in elementary school were proficient in English language arts compared with 37% for the district and 58% for the state. In math, just 19 percent were proficient in …

NEWARK, NJ — When BRICK Education Network stepped in to manage Newark’s Marion P. Thomas Charter …

NEWARK, NJ — As the Newark Public Schools District and other New Jersey schools move to transition students back into the classrooms next month, a recent poll found that voters in the state are split on a return to in-person learning. 

The survey, conducted by Change Research and commissioned by Newark-based non-profit Project Ready, interviewed 960 voters in the state to assess their concerns …

NEWARK, NJ — As the Newark Public Schools District and other New Jersey schools move to transition …


Biochar-based fertilizer decreased while chemical fertilizer increased soil N2O emissions in a …

5 March, 2021
 

Biochar-based fertilizer (BF) decreased soil N2O emissions.

Chemical fertilizer increased soil N2O emissions.

BF decreased soil N2O emissions via reducing WSON concentration.

BF decreased soil N2O emissions via reducing N-cycling enzyme activity.

Biochar-based fertilizer (BF) decreased soil N2O emissions.

Chemical fertilizer increased soil N2O emissions.

BF decreased soil N2O emissions via reducing WSON concentration.

BF decreased soil N2O emissions via reducing N-cycling enzyme activity.

While there is a sound understanding of the range of mechanisms by which biochar can contribute to the mitigation of soil N2O emissions, a paucity of information remains on the efficacy and mechanisms associated with biochar-based fertilizer (BF). The present 12-month field trial aimed to: (1) investigate the responses of the seasonal variations in soil N2O emissions and environmental factors, including soil temperature and moisture content, concentrations of NH4+-N, NO3-N, water-soluble organic N (WSON), microbial biomass N (MBN), water-soluble organic C (WSOC) and microbial biomass C (MBC), and urease and protease activities, to application of BF, chemical fertilizer (CF) and a mixture of BF and CF (BCF) within a Moso bamboo plantation, and (2) reveal contributions of variation in soil properties to change in soil N2O emissions. The fertilized treatments matched doses of N, P and K among BF, CF and BCF, with an unfertilized treatment as a control. Compared to the control, BF treatment decreased soil N2O emissions (P < 0.05), whereas treatments of CF and BCF enhanced soil N2O emissions (P < 0.05). Soil N2O emissions were predominantly related to the soil temperature (P < 0.01), and correlated with soil WSON concentration and soil urease and protease activities in all fertilized treatments (P < 0.05). In addition, BF treatment markedly (P < 0.05) reduced soil WSON concentration, as well as soil urease and protease activities, whereas the CF and BCF treatments enhanced them (P < 0.05). Results of structural equation modelling indicated that the mechanisms by which BF decreased soil N2O emissions within the subtropical Moso bamboo plantation was via lowering WSON concentration and N-cycling enzyme activity in soils. In conclusion, results of the present work indicated that BF application could provide an important management strategy for the mitigation of N2O emissions from subtropical plantation soils.

These two authors contributed equally to this paper.


Sustainable Missoula: Inspiring people and efforts that can scale

5 March, 2021
 

These are topsy turvy times for climate solvers, with exciting things happening now and on the horizon, and also so much not happening at the scale and pace it needs to. Climate action is one of the highest priorities for the Biden-Harris administration, as they make up for lost and wasted time, addressing the climate crisis with a systems-wide approach and via every federal department.

Yet here in Montana, the first half of the legislative session saw a mind-numbing onslaught of bills trying to move us backward, ignoring the realities of carbon pollution and the costs of inaction, blind and deaf to the opportunities a clean energy and regenerative economy will bring.

Amidst this dizzying current reality, we are searching for signals amidst the noise, and finding joy in the work of everyday people working hard to build a better planet. In this week’s column, we bring you a series of short features on multi-solvers who are taking an idea and working to scale it up.

From the Atlantic coast to the Montana forest, there’s something here for everyone, and we hope you’ll be inspired by the ways they’ve used their unique skill sets to connect local issues to broader systems change. Climate change is too often a narrative of insurmountable odds that no one person alone can overcome. While we certainly need structural change, often that change can be sparked by an individual’s idea or commitment to make a difference.

The projects below started at the local level but their impacts extend far beyond where they originated. Sometimes taking a step back and looking around us for hope and inspiration can reenergize us for the work ahead and remind us that we’re all in this together.

GreenWave

Bren Smith is a seaweed farmer in the Long Island Sound, along the coasts of Connecticut and New York. You read that correctly – he farms seaweed, also known as kelp. Kelp is a powerful climate solution, with the ability to restore ocean ecosystems, feed communities, sequester carbon, and replace fossil fuels in fertilizers and bioplastics.

After becoming discouraged with the unsustainability of cod farming and the vulnerability of oyster farming to hurricane storm surges, Bren started a new regenerative ocean farming venture aimed at growing and harvesting kelp – but he didn’t stop once his own farm was up and running. He took his individual experience and focused on creating systemic change, co-founding GreenWave, a nonprofit dedicated to training and supporting kelp farmers across the country and accelerating market demand for kelp products in our food, agricultural, and plastic industries.

To learn more about Bren and Greenwave’s work, as well as how kelp farming can be a climate, economic, and social justice solution, listen to How to Save a Planet’s two part feature on Bren and kelp farming. We highly recommend these two episodes and the podcast in general!

Sylvanaqua Farms

Chris and Annie Newman, the owners of Sylvanaqua Farms outside Washington DC, have a grand vision. Not only do they use climate-resilient and carbon-sequestering practices on their farm, but they are building a cooperative economic model aimed at genuine transformation of the food system: making small farms truly competitive, while addressing systemic racism, land access for new farmers, regional ecosystem health, and equitable access to healthy food, all at the same time.

Sylvanaqua Farms uses permaculture and other regenerative agricultural practices that are increasingly recognized as a way to reduce emissions from the food system – something scientists agree will be essential if we are to meet global greenhouse gas emissions targets. But for Chris and Annie, using these practices on their own land is not enough. They believe that by rethinking not just agricultural practices but economic ones too, this kind of climate-friendly agriculture can be viable anywhere – and can help revitalize communities, provide truly sustainable livelihoods, protect vital ecosystems, and address social inequities.

And right here in Western Montana, we’ve already got the building blocks for such a regional-scale, climate-resilient food system as well, with the Western Montana Growers’ Cooperative and many other producers and advocates who are working to strengthen local agriculture.

Cement

Closer to home, a group of researchers at Montana State University are worried about a material that’s all around us: concrete. Concrete production makes up 8% of global carbon emissions, and it is resource intensive to make and requires copious amounts of water and sand.

Motivated to creatively address the problem, scientists at MSU are experimenting with fungi and bacteria to produce a concrete alternative. Not only would a fungi or bacteria based building material be less carbon intensive, but it could also be reusable and recyclable. When a concrete building is deconstructed, there’s little to no use for the concrete and so it goes into the landfill. The MSU lab could change all of that, and they’ve already successfully collaborated with industry partners to create a bacteria-based material to seal fractures in oil and gas wells, preventing the escape of methane into the atmosphere.

While many of us might not think about concrete everyday, there are a lot of brilliant, dedicated scientists committed to tackling the issue, and there is a massive potential to scale these creative solutions across the globe.

Biochar

Dave Atkins, a local retired forester and climate solutions advocate, is an evangelist for using wood to sequester carbon, and build structures and community. He’s a longtime proponent of how we in western Montana can accelerate low-carbon, green building, using cross-laminated timber and other products that can be harvested carefully and sustainably.

Even more exciting is Dave’s latest efforts to collaborate with others to develop locally produced biochar. Biochar is basically a charcoal product created by taking tree branches, forest slash, small trees from fire mitigation projects and other non-salable wood (think diseased, gnarled, ugly or leftover!) and combusting it in a low oxygen kiln. The product that remains holds carbon for centuries and because it holds moisture and nutrients, provides incredible benefits to soils. Biochar applied to agriculture lands or backyard gardens can significantly reduce the need for irrigation, critically important as our summers become increasingly hot and dry.

Locally producing and selling biochar can no doubt scale – and we’re looking forward to Dave and his colleagues leading the way. Want to be inspired about biochar and wood products? Check out this example from Colorado (where the biochar has an abundant market in helping to sustainably grow, you guessed it, weed). And of course biochar efforts complement the good work of beavers, whose dams hold water back so we’ve some in our streams late summer. And not all our yard and wood waste need go to biochar – we love how compost is now a thing, made possible by the fine and innovative folk at Soil Cycle and Missoula Compost Collection.

The vignettes above may seem like unrelated strands, but they all help to form the same piece of rope. At Climate Smart, we’ve embraced advice from our friend Dr. Rob Davies that all of us have a role in solving the climate crisis and need to be busy right now. The stories above are of people taking that to heart, making a difference in their own respective corners of the universe. And indeed, efforts that seek to innovate new technologies and practices, or drive down the costs of existing climate-tools, have a multiplier effect that extends far beyond the cities or country in which they were created.

Another way of thinking about it, also inspired by Rob Davies, is that we’re climbing a mountain. We may not be able to see the top, but we can see the next step. Even when it is daunting and challenging, we must grab all the resolve we can muster and take the next step. And the next and the next. As we climb, we are beacons for others who are also on the mountain – helping to light the way for those behind us and showing those in front of us that they are not alone.

One of us was pondering this recently, out wandering the snowy hillsides at the break of dawn. A lovely morning where the crusty snow was so frozen we could easily run up the hill enjoying every step. Until we punched through. Until the going got hard. So we reset our expectations, decided to laugh and enjoy the challenge and run on. Soon enough tracks merged, and the going got easier because someone else had created a path up, in the same direction we were already headed.

Cheesy, yes, but we are all in this together. The work we do now builds on the work of the past, and it lays the groundwork for the future. Together we can forge a trail up the mountain.

Caroline Lauer, Abby Huseth, Amy Cilimburg, and Mason Dow comprise the staff of Climate Smart Missoula. This Sustainable Missoula column is brought to you – via the Missoula Current – every week by Climate Smart Missoula and Home ReSource.

Sustainability Happenings

As COVID-19 has altered many community events, some have moved on-line or found creative outlets. Here we offer ideas about sustainable ways to stay involved in our community. If you like these offerings, consider signing up for Climate Smart’s eNewsletter here. And sign up for Home ReSource’s eNews via their homepage here.

Lot’s of events and ideas to celebrate earth day, week and month – stay tuned!

Now through March 21. Apply for a garden plot from Garden City Harvest! Garden City Harvest is taking new gardener applications! Each of the community gardens provides participants with a garden plot, tools, water, straw, compost, and educational resources to help them grow their own food. Apply by March 21 for the best chance of receiving a plot this spring! More info HERE or call 406-523-3663.

April 6. The First Step to Fixing Climate Change with scientist and climate communicator extraordinaire Dr. Katharine Hayhoe. Families for a Livable Climate virtual event. Noon – 1:00 PM.

Now through April. Montana Legislature is in session. Get the awesome “How to be Involved Guide” from Montana Free Press. To follow efforts for clean energy, climate, conservation and sustainability, consider connecting with (and getting the low down and action alerts from):

Through April. Missoula Valley Winter Market. Located in the Southgate Mall (in former Lucky’s Market). Market hours: Saturdays, 9am-2pm through April 17.

Through April 22. Thursdays, 7pm. Seeking Sustainability Lecture Series. In 2020, this lecture series celebrated 50 years of Earth Day by focusing on Missoula’s sustainability efforts & featuring 60 speakers. In 2021 many of those speakers will return to give updates on how their programs have adapted to the crises we face. Check out this year’s schedule HERE. 2020 recordings are available HERE.

Through June 19 (dates added periodically). Virtual Fixit Clinics. Want to try fixing from home? Present your broken item to a global team of expert community repairers and get suggestions for things to try. After all items are presented, participants move to Zoom breakout rooms to implement the suggestions and, hopefully, fix the items.

Find more local activities and events at Missoulaevents.net and on Montana Environmental Information Center’s Conservation Calendar. And you too can help organize events – here’s the 2021 Calendar of Environmental Awareness Days – month by month break down of world day campaigns.

Value local news? Think it’s important to building an informed community? Consider giving $5 a month to keep the local in local news. Missoula likes it that way, and so do we.

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biochar | World Agroforestry

5 March, 2021
 

World Agroforestry (ICRAF) is a centre of science and development excellence that harnesses the benefits of trees for people and the environment. Leveraging the world’s largest repository of agroforestry science and information, we develop knowledge practices, from farmers’ fields to the global sphere, to ensure food security and environmental sustainability…read more

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Biochar Fine Granules Market Size, Share, Healthy Growth, Trends, Industry Outlook, Region …

5 March, 2021
 

The report titled Global Biochar Fine Granules Market is one of the most comprehensive and important additions to QY Research’s archive of market research studies. It offers detailed research and analysis of key aspects of the global Biochar Fine Granules market. The market analysts authoring this report have provided in-depth information on leading growth drivers, restraints, challenges, trends, and opportunities to offer a complete analysis of the global Biochar Fine Granules market. Market participants can use the analysis on market dynamics to plan effective growth strategies and prepare for future challenges beforehand. Each trend of the global Biochar Fine Granules market is carefully analyzed and researched about by the market analysts.The market analysts and researchers have done extensive analysis of the global Biochar Fine Granules market with the help of research methodologies such as PESTLE and Porter’s Five Forces analysis. They have provided accurate and reliable market data and useful recommendations with an aim to help the players gain an insight into the overall present and future market scenario. The Biochar Fine Granules report comprises in-depth study of the potential segments including product type, application, and end user and their contribution to the overall market size.

Get PDF Sample Copy of Report: (Including TOC, List of Tables & Figures, Chart) https://www.qyresearch.com/sample-form/form/2843399/global-biochar-fine-granules-industry

In addition, market revenues based on region and country are provided in the Biochar Fine Granules report. The authors of the report have also shed light on the common business tactics adopted by players. The leading players of the global Biochar Fine Granules market and their complete profiles are included in the report. Besides that, investment opportunities, recommendations, and trends that are trending at present in the global Biochar Fine Granules market are mapped by the report. With the help of this report, the key players of the global Biochar Fine Granules market will be able to make sound decisions and plan their strategies accordingly to stay ahead of the curve.

Competitive landscape is a critical aspect every key player needs to be familiar with. The report throws light on the competitive scenario of the global Biochar Fine Granules market to know the competition at both the domestic and global levels. Market experts have also offered the outline of every leading player of the global Biochar Fine Granules market, considering the key aspects such as areas of operation, production, and product portfolio. Additionally, companies in the report are studied based on the key factors such as company size, market share, market growth, revenue, production volume, and profits.

Key Players Mentioned: Cool Planet Energy Systems, Biochar Supreme, NextChar, Terra Char, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC)

Market Segmentation by Product: Wood Source Biochar
Corn Source Biochar
Wheat Source Biochar
Others

Market Segmentation by Application: Soil Conditioner
Fertilizer
Others

The Biochar Fine Granules Market report has been segregated based on distinct categories, such as product type, application, end user, and region. Each and every segment is evaluated on the basis of CAGR, share, and growth potential. In the regional analysis, the report highlights the prospective region, which is estimated to generate opportunities in the global Biochar Fine Granules market in the forthcoming years. This segmental analysis will surely turn out to be a useful tool for the readers, stakeholders, and market participants to get a complete picture of the global Biochar Fine Granules market and its potential to grow in the years to come.

Key questions answered in the report:

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Table of Contents:

1 Report Overview
1.1 Biochar Fine Granules Research Scope
1.2 Market Segment by Type
1.2.1 Global Biochar Fine Granules Market Size Growth Rate by Type
1.2.2 Wood Source Biochar
1.2.3 Corn Source Biochar
1.2.4 Wheat Source Biochar
1.2.5 Others
1.3 Market Segment by Application
1.3.1 Global Biochar Fine Granules Market Size Growth Rate by Application
1.3.2 Soil Conditioner
1.3.3 Fertilizer
1.3.4 Others
1.4 Study Objectives
1.5 Years Considered

2 Global Market Production
2.1 Global Biochar Fine Granules Production Capacity (2016-2027)
2.2 Global Biochar Fine Granules Production by Region: 2016 VS 2021 VS 2027
2.3 Global Biochar Fine Granules Production by Region
2.3.1 Global Biochar Fine Granules Historic Production by Region (2016-2021)
2.3.2 Global Biochar Fine Granules Forecasted Production by Region (2022-2027)
2.3.3 North America
2.3.4 Europe
2.3.5 Japan
2.36 China
2.3.7 South Korea
2.3.8 India
2.4 Industry Trends
2.4.1 Biochar Fine Granules Industry Trends
2.4.2 Biochar Fine Granules Market Drivers
2.4.3 Biochar Fine Granules Market Challenges
2.4.4 Biochar Fine Granules Market Restraints

3 Global Biochar Fine Granules Sales
3.1 Global Biochar Fine Granules Sales Estimates and Forecasts 2016-2027
3.2 Global Biochar Fine Granules Revenue Estimates and Forecasts 2016-2027
3.3 Global Biochar Fine Granules Revenue by Region: 2016 VS 2021 VS 2027
3.4 Global Top Biochar Fine Granules Regions by Sales
3.4.1 Global Top Biochar Fine Granules Regions by Sales (2016-2021)
3.4.2 Global Top Biochar Fine Granules Regions by Sales (2022-2027)
3.5 Global Top Biochar Fine Granules Regions by Revenue
3.5.1 Global Top Biochar Fine Granules Regions by Revenue (2016-2021)
3.5.2 Global Top Biochar Fine Granules Regions by Revenue (2022-2027)
3.5.3 North America
3.5.4 Europe
3.5.5 Asia-Pacific
3.5.6 Latin America
3.5.7 Middle East & Africa

4 Competition by Manufacturers
4.1 Global Biochar Fine Granules Production Capacity by Manufacturers
4.2 Global Biochar Fine Granules Sales by Manufacturers
4.2.1 Global Top Biochar Fine Granules Manufacturers by Sales (2016-2021)
4.2.2 Global Top Biochar Fine Granules Manufacturers Market Share by Sales (2016-2021)
4.2.3 Global Top 10 and Top 5 Companies by Biochar Fine Granules Sales in 2020
4.3 Global Biochar Fine Granules Revenue by Manufacturers
4.3.1 Global Top Biochar Fine Granules Manufacturers by Revenue (2016-2021)
4.3.2 Global Top Biochar Fine Granules Manufacturers Market Share by Revenue (2016-2021)
4.3.3 Global Top 10 and Top 5 Companies by Biochar Fine Granules Revenue in 2020
4.4 Global Biochar Fine Granules Sales Price by Manufacturers
4.5 Analysis of Competitive Landscape
4.5.1 Manufacturers Market Concentration Ratio (CR5 and HHI)
4.5.2 Global Biochar Fine Granules Market Share by Company Type (Tier 1, Tier 2, and Tier 3)
4.5.3 Global Biochar Fine Granules Manufacturers Geographical Distribution
4.6 Mergers & Acquisitions, Expansion Plans

5 Estimates and Forecasts by Type
5.1 Global Biochar Fine Granules Sales by Type
5.1.1 Global Biochar Fine Granules Historical Sales by Type (2016-2021)
5.1.2 Global Biochar Fine Granules Forecasted Sales by Type (2022-2027)
5.1.3 Global Biochar Fine Granules Sales Market Share by Type (2016-2027)
5.2 Global Biochar Fine Granules Revenue by Type
5.2.1 Global Biochar Fine Granules Historical Revenue by Type (2016-2021)
5.2.2 Global Biochar Fine Granules Forecasted Revenue by Type (2022-2027)
5.2.3 Global Biochar Fine Granules Revenue Market Share by Type (2016-2027)
5.3 Global Biochar Fine Granules Price by Type
5.3.1 Global Biochar Fine Granules Price by Type (2016-2021)
5.3.2 Global Biochar Fine Granules Price Forecast by Type (2022-2027)

6 Market Size by Application
6.1 Global Biochar Fine Granules Sales by Application
6.1.1 Global Biochar Fine Granules Historical Sales by Application (2016-2021)
6.1.2 Global Biochar Fine Granules Forecasted Sales by Application (2022-2027)
6.1.3 Global Biochar Fine Granules Sales Market Share by Application (2016-2027)
6.2 Global Biochar Fine Granules Revenue by Application
6.2.1 Global Biochar Fine Granules Historical Revenue by Application (2016-2021)
6.2.2 Global Biochar Fine Granules Forecasted Revenue by Application (2022-2027)
6.2.3 Global Biochar Fine Granules Revenue Market Share by Application (2016-2027)
6.3 Global Biochar Fine Granules Price by Application
6.3.1 Global Biochar Fine Granules Price by Application (2016-2021)
6.3.2 Global Biochar Fine Granules Price Forecast by Application (2022-2027)

7 North America
7.1 North America Biochar Fine Granules Sales Breakdown by Company
7.1.1 North America Biochar Fine Granules Sales by Company (2016-2021)
7.1.2 North America Biochar Fine Granules Revenue by Company (2016-2021)
7.2 North America Biochar Fine Granules Market Size by Type
7.2.1 North America Biochar Fine Granules Sales by Type (2016-2027)
7.2.2 North America Biochar Fine Granules Revenue by Type (2016-2027)
7.3 North America Biochar Fine Granules Market Size by Application
7.3.1 North America Biochar Fine Granules Sales by Application (2016-2027)
7.3.2 North America Biochar Fine Granules Revenue by Application (2016-2027)
7.4 North America Biochar Fine Granules Market Size by Country
7.4.1 North America Biochar Fine Granules Sales by Country (2016-2027)
7.4.2 North America Biochar Fine Granules Revenue by Country (2016-2027)
7.4.3 U.S.
7.4.4 Canada

8 Europe
8.1 Europe Biochar Fine Granules Sales Breakdown by Company
8.1.1 Europe Biochar Fine Granules Sales by Company (2016-2021)
8.1.2 Europe Biochar Fine Granules Revenue by Company (2016-2021)
8.2 Europe Biochar Fine Granules Market Size by Type
8.2.1 Europe Biochar Fine Granules Sales by Type (2016-2028)
8.2.2 Europe Biochar Fine Granules Revenue by Type (2016-2028)
8.3 Europe Biochar Fine Granules Market Size by Application
8.3.1 Europe Biochar Fine Granules Sales by Application (2016-2028)
8.3.2 Europe Biochar Fine Granules Revenue by Application (2016-2028)
8.4 Europe Biochar Fine Granules Market Size by Country
8.4.1 Europe Biochar Fine Granules Sales by Country (2016-2028)
8.4.2 Europe Biochar Fine Granules Revenue by Country (2016-2028)
8.4.3 Germany
8.4.4 France
8.4.5 U.K.
8.4.6 Italy
8.4.7 Russia

9 Asia Pacific
9.1 Asia Pacific Biochar Fine Granules Sales Breakdown by Company
9.1.1 Asia Pacific Biochar Fine Granules Sales by Company (2016-2021)
9.1.2 Asia Pacific Biochar Fine Granules Revenue by Company (2016-2021)
9.2 Asia Pacific Biochar Fine Granules Market Size by Type
9.2.1 Asia Pacific Biochar Fine Granules Sales by Type (2016-2029)
9.2.2 Asia Pacific Biochar Fine Granules Revenue by Type (2016-2029)
9.3 Asia Pacific Biochar Fine Granules Market Size by Application
9.3.1 Asia Pacific Biochar Fine Granules Sales by Application (2016-2029)
9.3.2 Asia Pacific Biochar Fine Granules Revenue by Application (2016-2029)
9.4 Asia Pacific Biochar Fine Granules Market Size by Region
9.4.1 Asia Pacific Biochar Fine Granules Sales by Region (2016-2029)
9.4.2 Asia Pacific Biochar Fine Granules Revenue by Region (2016-2029)
9.4.3 China
9.4.4 Japan
9.4.5 South Korea
9.4.6 India
9.4.7 Australia
9.4.8 Taiwan
9.4.9 Indonesia
9.4.10 Thailand
9.4.11 Malaysia
9.4.12 Philippines

10 Latin America
10.1 Latin America Biochar Fine Granules Sales Breakdown by Company
10.1.1 Latin America Biochar Fine Granules Sales by Company (2016-2021)
10.1.2 Latin America Biochar Fine Granules Revenue by Company (2016-2021)
10.2 Latin America Biochar Fine Granules Market Size by Type
10.2.1 Latin America Biochar Fine Granules Sales by Type (2016-20210)
10.2.2 Latin America Biochar Fine Granules Revenue by Type (2016-20210)
10.3 Latin America Biochar Fine Granules Market Size by Application
10.3.1 Latin America Biochar Fine Granules Sales by Application (2016-20210)
10.3.2 Latin America Biochar Fine Granules Revenue by Application (2016-20210)
10.4 Latin America Biochar Fine Granules Market Size by Country
10.4.1 Latin America Biochar Fine Granules Sales by Country (2016-20210)
10.4.2 Latin America Biochar Fine Granules Revenue by Country (2016-20210)
10.4.3 Mexico
10.4.4 Brazil
10.4.5 Argentina

11 Middle East and Africa
11.1 Middle East and Africa Biochar Fine Granules Sales Breakdown by Company
11.1.1 Middle East and Africa Biochar Fine Granules Sales by Company (2016-2021)
11.1.2 Middle East and Africa Biochar Fine Granules Revenue by Company (2016-2021)
11.2 Middle East and Africa Biochar Fine Granules Market Size by Type
11.2.1 Middle East and Africa Biochar Fine Granules Sales by Type (2016-20211)
11.2.2 Middle East and Africa Biochar Fine Granules Revenue by Type (2016-20211)
11.3 Middle East and Africa Biochar Fine Granules Market Size by Application
11.3.1 Middle East and Africa Biochar Fine Granules Sales by Application (2016-20211)
11.3.2 Middle East and Africa Biochar Fine Granules Revenue by Application (2016-20211)
11.4 Middle East and Africa Biochar Fine Granules Market Size by Country
11.4.1 Middle East and Africa Biochar Fine Granules Sales by Country (2016-20211)
11.4.2 Middle East and Africa Biochar Fine Granules Revenue by Country (2016-20211)
11.4.3 Turkey
11.4.4 Saudi Arabia
11.4.5 UAE

12 Company Profiles
12.1 Cool Planet Energy Systems
12.1.1 Cool Planet Energy Systems Corporation Information
12.1.2 Cool Planet Energy Systems Overview
12.1.3 Cool Planet Energy Systems Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.1.4 Cool Planet Energy Systems Biochar Fine Granules Products and Services
12.1.5 Cool Planet Energy Systems Biochar Fine Granules SWOT Analysis
12.1.6 Cool Planet Energy Systems Recent Developments
12.2 Biochar Supreme
12.2.1 Biochar Supreme Corporation Information
12.2.2 Biochar Supreme Overview
12.2.3 Biochar Supreme Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.2.4 Biochar Supreme Biochar Fine Granules Products and Services
12.2.5 Biochar Supreme Biochar Fine Granules SWOT Analysis
12.2.6 Biochar Supreme Recent Developments
12.3 NextChar
12.3.1 NextChar Corporation Information
12.3.2 NextChar Overview
12.3.3 NextChar Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.3.4 NextChar Biochar Fine Granules Products and Services
12.3.5 NextChar Biochar Fine Granules SWOT Analysis
12.3.6 NextChar Recent Developments
12.4 Terra Char
12.4.1 Terra Char Corporation Information
12.4.2 Terra Char Overview
12.4.3 Terra Char Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.4.4 Terra Char Biochar Fine Granules Products and Services
12.4.5 Terra Char Biochar Fine Granules SWOT Analysis
12.4.6 Terra Char Recent Developments
12.5 CharGrow
12.5.1 CharGrow Corporation Information
12.5.2 CharGrow Overview
12.5.3 CharGrow Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.5.4 CharGrow Biochar Fine Granules Products and Services
12.5.5 CharGrow Biochar Fine Granules SWOT Analysis
12.5.6 CharGrow Recent Developments
12.6 Pacific Biochar
12.6.1 Pacific Biochar Corporation Information
12.6.2 Pacific Biochar Overview
12.6.3 Pacific Biochar Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.6.4 Pacific Biochar Biochar Fine Granules Products and Services
12.6.5 Pacific Biochar Biochar Fine Granules SWOT Analysis
12.6.6 Pacific Biochar Recent Developments
12.7 Biochar Now
12.7.1 Biochar Now Corporation Information
12.7.2 Biochar Now Overview
12.7.3 Biochar Now Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.7.4 Biochar Now Biochar Fine Granules Products and Services
12.7.5 Biochar Now Biochar Fine Granules SWOT Analysis
12.7.6 Biochar Now Recent Developments
12.8 The Biochar Company (TBC)
12.8.1 The Biochar Company (TBC) Corporation Information
12.8.2 The Biochar Company (TBC) Overview
12.8.3 The Biochar Company (TBC) Biochar Fine Granules Sales, Revenue, Price and Gross Margin (2016-2021)
12.8.4 The Biochar Company (TBC) Biochar Fine Granules Products and Services
12.8.5 The Biochar Company (TBC) Biochar Fine Granules SWOT Analysis
12.8.6 The Biochar Company (TBC) Recent Developments

13 Value Chain and Sales Channels Analysis
13.1 Biochar Fine Granules Value Chain Analysis
13.2 Biochar Fine Granules Key Raw Materials
13.2.1 Key Raw Materials
13.2.2 Raw Materials Key Suppliers
13.3 Biochar Fine Granules Production Mode & Process
13.4 Biochar Fine Granules Sales and Marketing
13.4.1 Biochar Fine Granules Sales Channels
13.4.2 Biochar Fine Granules Distributors
13.5 Biochar Fine Granules Customers

14 Key Findings
15 Appendix
15.1 Research Methodology
15.1.1 Methodology/Research Approach
15.1.2 Data Source
15.2 Author Details
15.3 Disclaimer

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Biochar: Industry Activities & Roadmap Towards 2021 by EarthSpring Biochar/Biochar Central …

5 March, 2021
 

The Biochar Market analysis entails a detailed comprehension of the global Biochar market economy, trade patterns, and associated business statistics for the top manufacturers. The analysis also provides expert recommendations to assist consumers in reflecting on their delivery policies and promoting informed decision-making. This research report covers both primary factors and significant innovations affecting the global Biochar market’s growth. The global Biochar market research offers comprehensive information on market demand, segmentation, and size, share in terms of volume & value, and growth. This research study analyses historical evidence as well as current developments in order to identify primary driving factors influencing the growth of a global Biochar market.

Get sample copy of this report at: https://www.adroitmarketresearch.com/contacts/request-sample/698?utm_source=pr

In addition, the Biochar industry overview details the possibilities and limitations that are likely to have an impact on the development of the market over the projected period. This report discusses the size and value of the economies calculated in terms of regional, global and country-level markets. The research offers a comprehensive viewpoint on-demand development across the forecast timeline in terms of volume and sales across a wide range of regions around the globe. Similarly, the global Biochar market report, with the assistance of SWOT analysis, determines the number of internal and external factors that affect the field being studied.

Biochar Market: Premier Players and their Examination

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

Read complete report at: https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=pr

The global Biochar market plans are followed by a simple evaluation of the financial condition as well as current developments. The study includes upstream conditions, demand growth, industry segmentation, business environment, and cost and price structure. Factors that influence growth and business networks are also covered in this report. The research also considers market projections for different areas. Likewise, the market research study offers several developed geographies such as Europe, Asia Pacific, South America, North America, the Middle East, and Africa.

Type Analysis of the Biochar Market:

by Technology (Pyrolysis, Gasification and Others)

Application Analysis of the Biochar Market:

by Application (Agriculture and Others)

The research study focuses on a thorough and comprehensive analysis of the global Biochar sector, including business trends such as opportunities, triggers, restraints, and technologies that are anticipated to leverage the current market climate and strategic status of the Biochar. This research study evaluates the conclusions of in-house expert interviews, extensive secondary analysis, and primary interviews. Porter’s Five Analysis research is used to evaluate the Biochar market report’s complex customer environment. The existing moves on the macro-economic dynamics of the Biochar market are included in this report. In terms of their regional reach, the research report highlights the extensive details and recent core developments of major service providers.

The Study Objectives of Biochar Market Report Are:

1. Examine and study the global Biochar Market sales, value, status (2020) and forecast (2025).
2. Focuses on the key Biochar Market manufacturers, to study the sales, value, market share and development plans in the future.
3. Define, describe and forecast the Biochar Market by type, application, and region.
4. Study the global and key regions market potential and advantage, opportunity and challenge, restraints and risks.
5. Know significant trends and factors driving or inhibiting the Biochar Market growth.
6. Study the opportunities in the market for stakeholders by identifying the high growth segments.
7. Strategically examines each submarket with respect to individual growth trend and their contribution to the Biochar Market
8. Examine competitive developments such as expansions, agreements, new product launches, and acquisitions in the market
9. Strategically profile the key players and comprehensively analyses their growth strategies.
10. Request coronavirus impact analysis on sectors and market

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COVID-19 Impact and Recovery Analysis – Global Biochar Market 2020-2027

5 March, 2021
 

Our analysts monitoring the situation around the Globe explain that after COVID-19 crisis the market will generate remunerative prospects for producers. The goal of the report is to provide a further illustration of the current scenario, economic slowdown and effect of COVID-19 on the industry as a whole.

Research Allied has added a new Global Biochar Market Study that scrutinizes current scenarios for future market size, market share, demand, growth, trends and forecasts.

This report first introduced the basics of the Biochar market: definitions, classification, application and market overview; Specifications; Manufacture process; Cost structure, raw materials and so on. We then analyzed key global market conditions, including product prices, profits, capacity, production, supply, demand, and market growth and forecasts.

Top Companies in this report includes: Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels, Carbon Gold, Kina, Swiss Biochar GmbH, BlackCarbon, Carbon Terra, Sonnenerde, Biokol, ECOSUS, Verora GmbH.

Major Type included in the report are: Wood Source Biochar, Corn Stove Source Biochar, Rice Stove Source Biochar, Wheat Stove Source Biochar, Other Stove Source Biochar.

Major Applications included in the report are: Soil Conditioner, Fertilizer, Others.

Get Biochar Free Sample report @: www.researchallied.com/request-sample/11661-biochar-sales-market

This research provides a complete list of all the major companies working in the Global Biochar Market. In addition, the latest expansion in the global market with financial status, company profile, business strategy and policy has been mentioned in research studies.

Study purposes:

• Research and analyze the world Biochar market size based on key regions / countries, product types and uses, historical data from 2013 to 2018 and forecasts to 2027.
• Understand the structure of the Biochar market by identifying the various sub-sectors.
• Focus on key Biochar market players to define, describe and analyze value, market share, market competition, SWOT analysis and development plans over the next few years.
• Analyze the Biochar market in relation to individual growth trends, future prospects and contributions to the total market.
• Share detailed information about the key factors (growth potential, opportunities, drivers, industry assignments and risks) affecting market growth.
• Analyze competitive developments such as market expansion, contracts, new product launches and acquisitions.

Read TOC of full Research Study at @ www.researchallied.com/report/11661-biochar-sales-market/

Key Methodology Expansion: The study includes key strategic developments in the market, including R & D, new product launch, M & A, contracts, cooperation, partnerships, joint ventures and regional growth of key competitors operating in global and regional markets. It’s possible. Scale.

Logical Tools: The Global Biochar Market Report uses analytical tools to include accurate research and evaluation data on key industry players and market coverage. We analyzed the growth of leading companies operating in the marketplace using analytics tools such as Porter’s five power analysis, SWOT analysis, feasibility study and ROI analysis.

This report finds additional transactions for key geographic segments in the Global Biochar Market and provides details about current and previous stocks. Ongoing trends, future challenges, future regional investment improvements, and many other factors have been considered and suggested.

North America, Europe and Asia-Pacific regions have been deeply studied to increase market penetration and ensure accurate analysis. Top manufacturers have been given important importance to understand strategies and clarify their position in specific markets.

Global Biochar Market by Geography:
• Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)
• Europe (Turkey, Germany, Russia UK, Italy, France, etc.)
• North America (the United States, Mexico, and Canada.)
• South America (Brazil etc.)
• The Middle East and Africa (GCC Countries and Egypt.)

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In the end, the report will include SWOT analysis of new projects in the global Biochar market, investment feasibility analysis, ROI analysis and development analysis. The report also presents a vulnerability that must be avoided by companies operating in the marketplace to enjoy sustainable growth during the forecast period.

Essentials of Table of Content:

1 Report Overview
1.1 Research Scope
1.2 Key Market Segments
1.3 Target Player
1.4 Market Analysis by Type
1.5 Market by Application
1.6 Learning Objectives
1.7 years considered

2 Global Growth Trends
2.1 Worldwide Biochar Market Size
2.2 Trends of Biochar Growth by Region
2.3 Corporate trends

Three market shares by key players
3.1 Worldwide Biochar Market Size by Manufacturer
3.2 Worldwide Biochar Key players Provide headquarters and local
3.3 Major Players Products / Solutions / Services
3.4 Enter the Barriers in the Biochar Market
3.5 Mergers, acquisitions and expansion plans

4 By-products By-products Market By-products
4.1 Worldwide Biochar Sales by Product
4.2 Global Biochar by Product Revenue
4.3 Worldwide Biochar

Continued………..

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Germany Granular Biochar Market – NeighborWebSJ

5 March, 2021
 

The report provides qualitative as well as quantitative researched data of the Global Granular Biochar Market. Along with this, it also incorporates the significant insights into the balanced scenario and the development methods were then adopted by the key players like Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold, Kina, The Biochar Company, Swiss Biochar […]


Biochar Market 2027 Register a Xx% CAGR In Terms Of Revenue: Cool Planet, Biochar Supreme …

5 March, 2021
 

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Some of the key players in the Global Biochar market are Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels, Carbon Gold, Kina, Swiss Biochar GmbH, BlackCarbon, Carbon Terra, Sonnenerde, Biokol, ECOSUS, Verora GmbH.

This market study offers you detailed insight into the global form industry with market size, in value terms, estimated at USD million/billion for the period. It also provides the projected growth rate for the next 5–6 years along with forecast market value. The study includes estimation of market size, detailed profile of products/services, SWOT of manufacturers/providers, their strategies, and recent developments in the industry.

Global Biochar Market Segmentation

By Industrial Biochar Market Product-Types: Wood Source Biochar, Corn Stove Source Biochar, Rice Stove Source Biochar, Wheat Stove Source Biochar, Other Stove Source Biochar

By Industrial Biochar Market Applications: Soil Conditioner, Fertilizer, Others

Globally, the global Biochar market has been fragmented into various regions such as North America, Latin America, Middle East, Asia-Pacific, Africa, and Europe. Furthermore, it gives a holistic snapshot of the competitive landscape across the world. To get a better outlook in the businesses, it offers various strategies and methodologies. The global Biochar market has been presented in the clear, concise and professional manner which helps to better understanding to readers. Different infographics have been incorporated in the report, to offer the graphical presentation of some significant facts and figures of market.

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The Biochar market factors described in this report are:

Key Strategic Developments in Global Biochar Market:

The research includes the key strategic activities such as R&D plans, M&A completed, agreements, new launches, collaborations, partnerships & Joint ventures, and regional growth of the key competitors operating in the market at global and regional scale.

Key Market Features in Global Biochar Market:

The report highlights Biochar market features, including revenue, weighted average regional price, capacity utilization rate, production rate, gross margins, consumption, import & export, supply & demand, cost bench-marking, market share, CAGR, and gross margin.

Analytical Market Highlights & Approach

The Global Biochar Market report provides the rigorously studied and evaluated data of the top industry players and their scope in the market by means of several analytical tools. The analytical tools such as Porters five forces analysis, feasibility study, SWOT analysis, and ROI analysis have been practiced reviewing the growth of the key players operating in the market.

Global Biochar Market Study Coverage:

It includes major manufacturers, emerging players growth story, major business segments of Global Biochar market, years considered, and research objectives. Additionally, segmentation on the basis of the type of product, application and technology.

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Further key aspects of the report indicate that:

Chapter 1: Research Scope: Product Definition, Type, End-Use & Methodology

Chapter 2: Global Industry Summary

Chapter 3: Market Dynamics

Chapter 4: Global Market Segmentation by region, type and End-Use

Chapter 5: North America Market Segmentation by region, type and End-Use

Chapter 6: Europe Market Segmentation by region, type and End-Use

Chapter 7: Asia-Pacific Market Segmentation by region, type and End-Use

Chapter 8: South America Market Segmentation by region, type and End-Use

Chapter 9: Middle East and Africa Market Segmentation by region, type and End-Use.

Chapter 10: Market Competition by Companies

Chapter 11: Market forecast and environment forecast.

Chapter 12: Industry Summary.

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Granular Biochar Market Top key Players Diacarbon Energy, Agri-Tech Producers, Biochar Now …

5 March, 2021
 

The global Granular Biochar market was xx million US$ in 2020 and is expected to xx million US$ by the end of 2028, growing at a CAGR of xx% between 2021 and 2028.

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The report presents a thorough overview of the competitive landscape of the global Granular Biochar Market and the detailed business profiles of the market’s notable players. Threats and weaknesses of leading companies are measured by the analysts in the report by using industry-standard tools such as Porter’s five force analysis and SWOT analysis. The Granular Biochar Market report covers all key parameters such as product innovation, market strategy for leading companies, Granular Biochar market share, revenue generation, the latest research and development and market expert perspectives.

The top players of this report: Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold, Kina, The Biochar Company, Swiss Biochar GmbH, ElementC6, BioChar Products, BlackCarbon, Cool Planet, Carbon Terra

It includes the research studies about the current trends in different sectors on the basis of their scope. The analyst of this report focuses on the static and dynamic pillars of the industries, for basic understanding of the strategies. In addition to this, it identifies the drivers and opportunities for the development of the businesses. Additionally, it focuses on restraints to analyze the issues from the existing business strategies. It focuses on the various aspects, such as application areas, platforms, and leading players operating across the global.

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Global Granular Biochar Market Segmentation

By Industrial Granular Biochar Market Product-Types: Wood Source Biochar, Corn Source Biochar, Wheat Source Biochar, Others

By Industrial Granular Biochar Market Applications: Soil Conditioner, Fertilizer, Others

Always aimed at providing our clients with in-depth analysis and best-in-class research in the global marketplace. This new report on the global Granular Biochar market strives to meet customer needs by providing a thorough insight into the market. The proprietary data provided in this Granular Biochar market report is collected by research and industry experts. North America, Latin America, Middle East, Asia-Pacific, Africa, Europe have been analyzed to study the global Granular Biochar market. Leading key players have been analyzed in several global regions. Furthermore, it makes use of graphical presentation techniques such as graphs, charts, tables, and pictures for better understanding to readers.

With all the information congregated and examined using SWOT analysis, there is a vivacious picture of the competitive landscape of the Global Granular Biochar Market. Openings for the future market development were revealed and preoccupied competitive dangers likewise textured. The drifts and inclinations of this market were considered and it demonstrates that there was an illustrious strategic direction observed. By the grasping market foundation and using the determined standards, methodologies, and inclinations of other driving markets for references, market data was understood.

The study objectives of this report are:

Table of Content (TOC):

Chapter 1 Introduction and Overview

Chapter 2 Industry Cost Structure and Economic Impact

Chapter 3 Rising Trends and New Technologies with Major key players

Chapter 4 Global Granular Biochar Market Analysis, Trends, Growth Factor

Chapter 5 Granular Biochar Market Application and Business with Potential Analysis

Chapter 6 Global Granular Biochar Market Segment, Type, Application

Chapter 7 Global Granular Biochar Market Analysis (by Application, Type, End User)

Chapter 8 Major Key Vendors Analysis of Granular Biochar Market

Chapter 9 Development Trend of Analysis

Chapter 10 Conclusion

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Granular Biochar Market 2021 : Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold

5 March, 2021
 

The Latest Report by Empirical Data Insights: Global Granular Biochar Market 2021 Report furnishes key depth Resolution on the market status of the Granular Biochar manufacturers with market size, revenue, growth, share, trends as well as industry cost structure compete in worldwide Market. This report helps to analyze top companies, regions, revenue, price, and also covers Industry sales channels, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.

Avail PDF Sample Pages of Granular Biochar Market Report @ https://www.empiricaldatainsights.com/sample-request/19022/

Company Profiles :

Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold, Kina, The Biochar Company, Swiss Biochar GmbH, ElementC6, BioChar Products, BlackCarbon, Cool Planet, Carbon Terra

According to the Granular Biochar market report, the industry is predicted to gain significant returns while recording a commendable yearly growth rate in the predicted time period. The report provides an outline of this industry and offers data in relation to the valuation; that the market presently owns along with analysis of the Granular Biochar market as well as growth opportunities in the business vertical.

Product Type segmentation:

Wood Source Biochar, Corn Source Biochar, Wheat Source Biochar

Apart from that the application market is segmented into:

Soil Conditioner, Fertilizer

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By Geographical Regions:

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Data tables

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Opinion: When is a tree more than a tree? When it's our heritage

5 March, 2021
 

The elder oak was a vestige of Oregon's oaky past, when Indigenous burning practices maintained great swaths of oak woodlands and savannah. It was for good reason: oak trees are more resilient to fire than conifers. Scientists call White Oak "habitat magnets," that support birds and plants. Indigenous people took advantage of this, as well as the elk and deer that oak attracted. Oak trees will provide essential housing for the animal kingdom's inevitable climate refugees.

When an elder dies, we all lose something. What of the departed tree? What stories can we glean from its rings?

The elder oak would see the area's Indigenous Chinook and Wapatoo populations dwindle as white settlers introduced disease, appropriated land and forced relocation.

The elder oak saw a gritty port town downriver emerge into its own neighborhood and become the city we know, love and argue over today.

A few months later, the old oak tree stood beside us as we choked in smoke from record-breaking forest fires, faithfully exhaling oxygen into the atmosphere.

After a fiery summer of reckonings sparked by matches with entwined histories, it was ice and snow that took an old oak tree down.

Put our trees to work

"Never waste a good crisis," said Winston Churchilll, who aptly used science to win wars. Now that we face a multitude of crises, it's time to take a tip from Indigenous wisdom and use science to heal.

The best way to memorialize Heritage Tree No. 200 is not through a eulogy, but by saving its neighbors.

Biochar is exactly what the community of Heritage Oak No. 200 needs, including Willamette Cove at the foot of the bluff. The wooded riverside trails are closed to the public due to toxic levels of industrial pollution, as part of the Portland Harbor Superfund Site.

If the city of Portland is serious about cleaning up the Willamette Harbor Superfund Site, prioritize the most faithful workforce: the trees.

Trees protect water and soil quality by absorbing nutrients, decreasing stormwater runoff and mitigating flood damage. Most trees near Heritage Tree No. 200 are getting choked out by English Ivy. Invasive plant control is also good fodder for biochar.

In our time of crises, some say the solution to a sick system is to burn it down. But with all that good waste, you might as well bake it.

Margo Craig is a St. Johns-area resident and a tree lover.

You count on us to stay informed and we depend on you to fund our efforts. Quality local journalism takes time and money. Please support us to protect the future of community journalism.

 

 

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‪Elias S. Azzi‬ – ‪Google Scholar‬

5 March, 2021
 


Tag #golfcourses

5 March, 2021
 

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Youtube biochar inoculation – Italam

6 March, 2021
 

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Biochar, one of the new “Garden Wonders”, has claims to make big improvements to the soil food web. Most of the biochar studies have been conducted in labs, not on farms. Even then, 50% of the studies report higher yields, 20% report no change, and 30% report a decrease.
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Activation of peroxymonosulfate by biochar-based catalysts and applications in the degradation of …

6 March, 2021
 

Sulfate radical-based advanced oxidation processes (SR-AOPs) have received intensively attention due to the ability and adaptability. Biochar-based catalysts have been regarded as the effective catalysts for activating peroxymonosulfate (PMS) to generate sulfate radicals (SO4•-). This article discussed the advance of the PMS activation by biochar-based catalysts. Firstly, the sources and synthesis methods of biochar-based catalysts have been discussed. Secondly, the different activation mechanisms (including radical pathways and non-radical pathways) of pristine biochar, heteroatom doping biochar and biochar composites catalysts for PMS activation are reviewed, respectively, which includes (i) the significant role of persistent radical (PFRs) and the special structures (defects and graphitization) of pristine biochar, (ii) the effects of element doping (especially N atom) and metal species on the biochar catalysts, (iii) the production mechanisms of reactive oxygen species (ROS) and special non-radical mechanism. Thirdly, the influences of PMS and catalysts concentration, temperature, pH, anions and natural organic matter (NOM) on the contaminants degradation process have been presented. Finally, the conclusion and prospects section discussed the challenges and possible future directions for the degradation of contaminants by biochar/PMS systems. This review is expected to provide new ideas for the application of biochar-based catalysts and broaden the ways for the removal of organic contaminants.

The authors contribute equally to this paper.


Wood Vinegar Market In-Depth Analysis including key players ACE Pte Ltd , Canada Renewable …

6 March, 2021
 

A new Research Report published by GMA under the title Global Wood Vinegar Market (COVID 19 Version) can grow into the world’s most important market which has played an important role in making progressive impacts on the global economy. The Global Wood Vinegar Market Report presents a dynamic vision for concluding and researching market size, market hope and competitive environment. The study is derived from primary and secondary Research and consists of qualitative & Quality analysis. The main company in this Research is ACE Pte Ltd , Canada Renewable Bioenergy Corp. , Nettenergy BV , TAGROW CO. LTD. , Byron Biochar , New Life Agro , Verdi Life , Nakashima Trading Co. Ltd. , Penta Manufacturer , Doi & Co. Ltd

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Data sourcing technique we follow: We Used Some Premium Sites to gather data.

 

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Research Methodology:

Primary Research:

We interviewed various key sources of supply and demand in the course of the Primary Research to obtain qualitative and quantitative information related to this report. Main sources of supply include key industry members, subject matter experts from key companies, and consultants from many major firms and organizations working on the Global Wood Vinegar Market.

Secondary Research:

Secondary Research was performed to obtain crucial information about the business supply chain, the company currency system, global corporate pools, and sector segmentation, with the lowest point, regional area, and technology-oriented perspectives. Secondary data were collected and analyzed to reach the total size of the market which the first survey confirmed.

Furthermore, the years considered for the study are as follows:

Historical year – 2013-2018

Base year – 2019

Forecast period** – 2020 to 2029

 

Some Key Research Questions & answers:

What Is impact of COVID 19 on Global Wood Vinegar Market?

Before COVID 19 Global Wood Vinegar Market Size Was XXX Million $ & After COVID 19 Excepted to Grow at a X% & XXX Million $.

Who are the Top Key Players in the Global Wood Vinegar Market and what are their priorities, strategies & developments?

Lists of Competitors in Research is: ACE Pte Ltd , Canada Renewable Bioenergy Corp. , Nettenergy BV , TAGROW CO. LTD. , Byron Biochar , New Life Agro , Verdi Life , Nakashima Trading Co. Ltd. , Penta Manufacturer , Doi & Co. Ltd

What are the Types & Applications of the Global Wood Vinegar Market?

Application’s cover in these Reports Is: [Application]

Types Cover in this Research: [Type]

Note: Please Share Your Budget on Call/Mail We will try to Reach your [email protected] Phone: +1 (925) 478-7203 / Email: [email protected]

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All percent shares, breaks, and classifications were determined using the secondary sources and confirmed through the primary sources. All parameters that may affect the market covered in this study have been extensively reviewed, researched through basic investigations, and analyzed to obtain final quantitative and qualitative data. This has been the study of key quantitative and qualitative insights through interviews with industry experts, including CEOs, vice presidents, directors and marketing executives, as well as annual and financial reports from top market participants.

 

Table of Content:

 

1 Report Summary

1.1 Research Scope

1.2 Key Market Segments

1.3 Target Player

1.4 Market Analysis by Type [Type]

1.5 Market by Application [Application]

1.6 Learning Objectives

1.7 years considered

 

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2 Global Growth Trends

2.1 Global Global Wood Vinegar Market Size

2.2 Trends of Global Wood Vinegar Market Growth by Region

2.3 Corporate trends

 

3 Global Wood Vinegar Market shares by key players

3.1 Global Wood Vinegar Market Size by Manufacturer

3.2 Global Wood Vinegar Market Key players Provide headquarters and local

3.3 Major Players Products / Solutions / Services

3.4 Enter the Barriers in the Global Wood Vinegar Market

3.5 Mergers, acquisitions and expansion plans

Continue……………………………………..

About Author:
GMA global research and market intelligence consulting organization is uniquely positioned to not only identify growth opportunities but to also empower and inspire you to create visionary growth strategies for futures, enabled by our extraordinary depth and breadth of thought leadership, research, tools, events and experience that assist you for making goals into a reality. Our understanding of the interplay between industry convergence, Mega Trends, technologies and market trends provides our clients with new business models and expansion opportunities. We are focused on identifying the “Accurate Forecast” in every industry we cover so our clients can reap the benefits of being early market entrants and can accomplish their “Goals & Objectives”.

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Gardening News March 2021

6 March, 2021
 

Several four by eight foot gardening plots are available in the community garden on church property on NW 123rd Avenue, just south of the Cedar Mill Bible Church. The $10 fee includes water, hoses, and the use of gardening tools for the season. If you are interested and want more information please contact the garden manager Allan Wells at wellsworks@comcast.net

Every gardening effort starts with soil, and knowing your soil and understanding how to improve it is critical to success. Sponsored by West Multnomah and Tualatin Soil & Water Conservation Districts, Soil School is eagerly anticipated by gardeners in the know each year. Last year it was canceled because of the pandemic. This year, the teams have decided to host the event as a series of free webinars over the month of April.

Live sessions will be held on Tuesday and Thursday evenings from 6-7 pm. (7:30 p.m. for Opening Session and Keynote). All sessions will be recorded for later viewing.

April 6 – Opening Session: It’s all about SOIL!

April 8 – Four Principles of Soil Health

April 13 – How To Meadowscape for Carbon Sequestration

April 15 – Keynote: Indigenous Traditional Ecological and Cultural Knowledge Practices

April 20 – Economics of Soil Health

April 22 – Soil Microbes: The Unseen World Beneath Our Feet

April 27 – Biochar: An Ancient Amendment and Its Modern Day Applications

April 29 – Dirt Simple: Carbon Farming at Home

Learn more and sign up here.

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This will be our 16th year of plant sales. For the second spring in a pandemic, we again will not be able to offer our usual selection of non-native fruit-bearing, ornamental and shade trees and shrubs. All plants are purchased from licensed nurseries. We have an ODA Temporary Nursery Sale License.  

Download the plant list and pre-order form from our website. Pre-Order must be received by March 26 at 5 pm.  Pick-ups on April 10-11 at 11275 NW Skyline Blvd, Portland 97231. 

Sharing with neighbors in a gift economy

Dining out safely in Washington County

Road News March 2021

Development News March 2021

CPO News March 2021

Continuing the “Beetle Battle”

Go Beavs!

Gardening News March 2021

Donuts Plus owner Sue Kim

Does the WCSO allow people to give anonymous complaints or comments?

Oregon updates traffic speed rules

Ride Connection expands

Library News

Community News March 2021

Business News March 2021

Useful information for the Cedar Mill community

Published monthly by
The Cedar Mill News LLC
3270 NW Kinsley Terrace
Portland, OR 97229

Send us an email!

800 printed copies are distributed throughout the Cedar Mill area. Printing courtesy of Pacific Office Automation.


Synergetic effects of biochar structure and AAEM species on reactivity of H2O-activated biochar

6 March, 2021
 

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worm castings kelp humid 2lb Biochar Big Foot Mycorrhizae Concentrate 32 oz Other Hydroponics …

6 March, 2021
 

worm castings kelp humid 2lb Biochar Big Foot Mycorrhizae Concentrate 32 oz,Biochar Big Foot Mycorrhizae Concentrate 32 oz worm castings kelp humid 2lb, worm castings, and high performance mycorrhizal fungi, perfect for your plants, Mycorrhizal fungi form a symbiotic bond with plant roots creating a microbial web, The microbial web accesses and absorbs water and vital nutrients, Mycorrhizae has been utilized by landscapers, farmers, nurseries, innovative hydroponic and home growers, soil media manufacturers, professional horticulturalists, and world champion pumpkin growers, Now it's available to you, Effective, Safe, Superior, Big Foot,Big Foot Concentrate is the very first all-in-one mycorrhizal product to include biochar.kelp humid 2lb Biochar Big Foot Mycorrhizae Concentrate 32 oz worm castings.

Big Foot Mycorrhizae Concentrate 32 oz. Biochar, worm castings, kelp, humid 2lb. Big Foot Concentrate is the very first all-in-one mycorrhizal product to include biochar, worm castings, and high performance mycorrhizal fungi, perfect for your plants. Mycorrhizal fungi form a symbiotic bond with plant roots creating a microbial web. The microbial web accesses and absorbs water and vital nutrients. Mycorrhizae has been utilized by landscapers, farmers, nurseries, innovative hydroponic and home growers, soil media manufacturers, professional horticulturalists, and world champion pumpkin growers. Now it's available to you! Effective. Safe. Superior. Big Foot.. Condition:: New: A brand-new, unused, unopened, undamaged item in its original packaging (where packaging is applicable). Packaging should be the same as what is found in a retail store, unless the item is handmade or was packaged by the manufacturer in non-retail packaging, such as an unprinted box or plastic bag. See the seller's listing for full details. See all condition definitions : MPN: : Does Not Apply , Brand: : American Root Company: UPC: : Does not apply , 。

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Artificial Neural Network Modelling for Biodecolorization of Basic Violet 03 from aqueous solution …

6 March, 2021
 

Agro-bio waste of groundnut hull derived biochar was used for BV03 adsorption.

Kinetic studies reveal that adsorption follows pseudo-second-order mechanism.

Artificial Neural Network was trained with batch experimental datasets.

Levenberg Marquardt back propagation algorithm was used to train artificial neural network.

Optimal network topology was found to be (5) Input layer – (11) Hidden layer – (1) Output.

Agro-bio waste of groundnut hull derived biochar was used for BV03 adsorption.

Kinetic studies reveal that adsorption follows pseudo-second-order mechanism.

Artificial Neural Network was trained with batch experimental datasets.

Levenberg Marquardt back propagation algorithm was used to train artificial neural network.

Optimal network topology was found to be (5) Input layer – (11) Hidden layer – (1) Output.

In this study, Levenberg Marquardt back propagation algorithm was used to train the Artificial Neural Network (ANN) and to predict the adsorptive removal of cationic dye Basic Violet 03 (BV03) by biochar derived from biowaste of groundnut hull. The experimental conditions such as solution pH, biochar dose, initial dye concentration, contact time and temperature were used as input variables and BV03 percentage removal as target. The hidden and the output layer of the network was trained by tangent sigmoid and liner transfer functions. The feasibility of the adsorption process is evaluated by the kinetic studies and it exhibited that pseudo-second order kinetic models fit well with experimental data. The adsorbent stability and adsorption mechanism has been discoursed by the thermodynamic characteristics and sorption free energy. The predicted target values were compared with the experiment resulted in a better correlation coefficient of 0.9920. Thus, the results attained from this ANN model was found to be effective in predicting the percentage removal of BV03 dye at any given operating condition.


Global Biochar Market with Geographic Segmentation, Statistical Forecast and Competitive …

6 March, 2021
 

Latest forecast study for the Biochar industry is covered in this report. This research report offers perilous statistics of the market which will assist the industry competitors in taking appropriate business decision. This study is further fragmented by Application/ End User, Type and Regions.

Marketstream.biz offers most recent trade chain structure and in-depth analysis of varied verticals segments. The Historical as well as Forecast data is offered in this report along with the market size of Biochar Market. The complete product portfolio and company profiles of top players, Global statistics, regional data, country level data, import-export scenario, consumption and gross margin analysis from 2015-2020 and production rate is obtainable in this report. Market value by Biochar region in 2020 for top players is analyzed in this report. The cost structures, growth rate, and gross margin analysis is enclosed in this report.

Major Key Players of Global Biochar Market:

The global Biochar market was valued at $XX million in 2020, and analysts expect the global market size will touch $XX million by the end of 2025, growing at a CAGR of XX% between 2021 and 2025.

Download Exclusive Sample of Biochar Markets Premium Report at:https://marketstream.biz/report/biochar/13540#requestforsample

Biochar Market study and forecast by type, region and applications is examined in this report. The forecast period is 2020-2025 where consumption forecast, market value and volume are accessible. In addition to all this, feasibility study, industry barriers, latest plans and policies are described in this study. The manufacturing cost, Biochar market labor cost, production process analysis, marketing channels and manufacturing base is explained.

Global Biochar market segmentation, by product type:

B-90
B-115
B-140
Others

Global Biochar market segmentation, by Application:

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The below list highlights the important points considered in Biochar report:

Why to Choose This Report:

Major Topics Covered in this Report –

Executive Summary

Table of Content:

1 Biochar Market Survey

2 Executive Synopsis

3 Global Biochar Market Race by Manufacturers

4 Global Biochar Production Market Share by Regions

5 Global Biochar Industry Consumption by Regions

6 Global Biochar Production, Revenue, Price Trend by Type

7 Global Biochar Market Analysis by Applications

8 Biochar Manufacturing Cost Examination

9 Advertising Channel, Suppliers and Clienteles

10 Market Dynamics

11 Global Biochar Market Estimate

12 Investigations and Conclusion

13 Important Findings in the Global Biochar Study

14 Appendixes

15 company Profile

Browse TCO https://marketstream.biz/report/biochar/13540#toc

 

 

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Global Granular Biochar Sales Market – Industry Reports – 360 Research Reports

6 March, 2021
 

Reports available on 360 Research Reports incorporate a comprehensive research statistics of all aspects of the market that offer you a thorough business intelligence. Gaining an in-depth predicative and competitive analysis of the market aids your business in dominating the market and that is what we aspire towards. Industry Reports provide you various industry-centric reports that aid your business in augmenting its growth. The reports we sell are integrated with market analysis data of the key players, leading market segments and latest market trends across the globe.

SKU ID : QYR-16776196 | Publishing Date : 19-Nov-2020 | No. of pages : 141

COPD burden in the 7MM to increase by 13.3% over the next decade   The total prevalent cases of chronic obstructive pulmonary disease (COPD) in the seven major markets (7MM*) is expected to increase from 59.3 million cases in 2018 to 67.2 million in 2028, at an annual growth rate (AGR) of 1.33%, according to Re…

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Granular Biochar Market Size, Share 2021 Global Leading Players, Updates, Future Growth …

6 March, 2021
 

Global “Granular Biochar Market“(2021-2026) present scenario and growth prospects of pin-point analysis for changing competitive dynamics and a forward-looking perspective on different factors driving or restraining industry growth. The Granular Biochar Market offers a thorough Analysis of market size, share, growth scope and Outlook Prospects of the Granular Biochar industry. This report provides all the essential information required to understand the key developments in the market spending in Granular Biochar market and expansion trends of each segment and region. The study shares Granular Biochar Market performance both in terms of volume and revenue and this factor which is useful & helpful to the business.

Get a sample PDF of the report at – https://www.360researchreports.com/enquiry/request-sample/16776196

Market Overview: The global Granular Biochar market is anticipated to rise at a considerable rate during the forecast period, between 2021 and 2026. In 2021, the market was growing at a steady rate and with the rising adoption of strategies by key players, the market is expected to rise over the projected horizon.

The Global Granular Biochar market 2021 research provides a basic overview of the industry including definitions, classifications, applications and industry chain structure. The Global Granular Biochar Market Share analysis is provided for the international markets including development trends, competitive landscape analysis, and key regions development status. Development policies and plans are discussed as well as manufacturing processes and cost structures are also analyzed. This report also states import/export consumption, supply and demand Figures, cost, price, revenue and gross margins. For each manufacturer covered, this report analyzes their Granular Biochar manufacturing sites, capacity, production, ex-factory price, revenue and market share in global market.

Global Granular Biochar Market Report 2021 provides exclusive vital statistics, data, information, trends and competitive landscape details in this niche sector.

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Granular Biochar Market: Segmentation analysis:

Granular Biochar Market delivers a comprehensive overview of the crucial elements of the Industry and elements such as drivers, restraints, current trends of the past and present times, supervisory scenario, and technological growth. The report also focuses on global major leading industry players of Global Granular Biochar market providing information such as company profiles, product picture and specification, capacity, production, price, cost, revenue and contact information. This report focuses on Granular Biochar Market Trend, volume and value at global level, regional level and company level. From a global perspective, this report represents overall Granular Biochar Market Size by analyzing historical data and future prospect.

List Of TOP KEY PLAYERS in Granular Biochar Market Report are –

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

On the basis of the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate for each application, including

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Additionally, growing industrial and Granular Biochar is expected to boost the growth of market across various industries globally

The report also focuses on global major leading industry players of Global Granular Biochar market providing information such as company profiles, product picture and specification, capacity, production, price, cost, revenue and contact information. This report focuses on Granular Biochar Market Trend, volume and value at global level, regional level and company level. From a global perspective, this report represents overall Granular Biochar Market Size by analyzing historical data and future prospect.

Regional Description:

At the beginning of 2021, COVID-19 disease began to spread around the world, millions of people worldwide were infected with COVID-19 disease, and major countries around the world have implemented foot prohibitions and work stoppage orders. Except for the medical supplies and life support products industries, most industries have been greatly impacted, and Benomyl industries have also been greatly affected.

This Report covers the manufacturers’ data, including: shipment, price, revenue, gross profit, interview record, business distribution etc., these data help the consumer know about the competitors better. This report also covers all the regions and countries of the world, which shows a regional development status, including market size, volume and value, as well as price data.

Besides, the report also covers segment data, including: type segment, industry segment, channel segment etc. cover different segment market size, both volume and value. Also cover different industries client’s information, which is very important for the manufacturers. If you need more information, please contact Us.

Geographical Segmentation and Competition Analysis

North America (U.S., Canada, Mexico)

Europe (U.K., France, Germany, Spain, Italy, Central & Eastern Europe, CIS)

Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific)

Latin America (Brazil, Rest of L.A.)

Middle East and Africa (Turkey, GCC, Rest of Middle East)

With tables and figures helping analyze worldwide Global Granular Biochar Market Forecast provides key statistics on the state of the industry and is a valuable source of guidance and direction for companies and individuals interested in the market

Purchase this report (Price 4000 USD for single user license) –https://www.360researchreports.com/purchase/16776196

Major Highlights of TOC:

1 Granular Biochar Market Overview

1.1 Product Overview and Scope of Granular Biochar

1.2 Granular Biochar Segment by Type

1.3 Granular Biochar Segment by Application

1.4 Global Granular Biochar Market Size Estimates and Forecasts

1.5 Granular Biochar Industry

1.6 Granular Biochar Market Trends

2 Global Granular Biochar Market Competition by Manufacturers

2.1 Global Granular Biochar Sales Market Share by Manufacturers (2016-2021)

2.2 Global Granular Biochar Revenue Share by Manufacturers (2016-2021)

2.3 Global Granular Biochar Average Price by Manufacturers (2016-2021)

2.4 Manufacturers Granular Biochar Manufacturing Sites, Area Served, Product Type

2.5 Granular Biochar Market Competitive Situation and Trends

2.6 Manufacturers Mergers & Acquisitions, Expansion Plans

2.7 Primary Interviews with Key Granular Biochar Players (Opinion Leaders)

3 Granular Biochar Retrospective Market Scenario by Region

3.1 Global Granular Biochar Retrospective Market Scenario in Sales by Region: 2016-2021

3.2 Global Granular Biochar Retrospective Market Scenario in Revenue by Region: 2016-2021

3.3 North America Granular Biochar Market Facts & Figures by Country

3.4 Europe Granular Biochar Market Facts & Figures by Country

3.5 Asia Pacific Granular Biochar Market Facts & Figures by Region

3.6 Latin America Granular Biochar Market Facts & Figures by Country

3.7 Middle East and Africa Granular Biochar Market Facts & Figures by Country

4 Global Granular Biochar Historic Market Analysis by Type

4.1 Global Granular Biochar Sales Market Share by Type (2016-2021)

4.2 Global Granular Biochar Revenue Market Share by Type (2016-2021)

4.3 Global Granular Biochar Price Market Share by Type (2016-2021)

4.4 Global Granular Biochar Market Share by Price Tier (2016-2021): Low-End, Mid-Range and High-End

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5 Global Granular Biochar Historic Market Analysis by Application

5.1 Global Granular Biochar Sales Market Share by Application (2016-2021)

5.2 Global Granular Biochar Revenue Market Share by Application (2016-2021)

5.3 Global Granular Biochar Price by Application (2016-2021)

6 Company Profiles and Key Figures in Granular Biochar Business

6.1 Kyowa Kirin

6.2 Ultragenyx Pharmaceutical

7 Granular Biochar Manufacturing Cost Analysis

7.1 Granular Biochar Key Raw Materials Analysis

7.2 Proportion of Manufacturing Cost Structure

7.3 Manufacturing Process Analysis of Granular Biochar

7.4 Granular Biochar Industrial Chain Analysis

8 Marketing Channel, Distributors and Customers

8.1 Marketing Channel

8.2 Granular Biochar Distributors List

8.3 Granular Biochar Customers

9 Market Dynamics

9.1 Market Trends

9.2 Opportunities and Drivers

9.3 Challenges

9.4 Porter’s Five Forces Analysis

10 Global Market Forecast

10.1 Global Granular Biochar Market Estimates and Projections by Type

10.2 Granular Biochar Market Estimates and Projections by Application

10.3 Granular Biochar Market Estimates and Projections by Region

10.4 North America Granular Biochar Estimates and Projections (2021-2026)

10.5 Europe Granular Biochar Estimates and Projections (2021-2026)

10.6 Asia Pacific Granular Biochar Estimates and Projections (2021-2026)

10.7 Latin America Granular Biochar Estimates and Projections (2021-2026)

10.8 Middle East and Africa Granular Biochar Estimates and Projections (2021-2026)

11 Research Finding and Conclusion

12 Methodology and Data Source

12.1 Methodology/Research Approach

12.1.1 Research Programs/Design

12.1.2 Market Size Estimation

12.1.3 Market Breakdown and Data Triangulation

12.2 Data Source

12.2.1 Secondary Sources

12.2.2 Primary Sources

12.3 Author List

12.4 Disclaimer

Continued….

Granular Biochar Market Key Benefits

This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the Granular Biochar market analysis from 2021 to 2026 to identify the prevailing market opportunities.

The key countries in all the major regions are on the basis of market share.

The market forecast is offered along with information related to key drivers, restraints, and opportunities.

An in-depth analysis of the market segmentation assists to determine the prevailing market opportunities.

Major countries in each region are according to their revenue contribution to the global industry.

The report includes an analysis of the regional as well as global industry trends, key players, market segments, application areas, and market growth strategies.

About Us:

360 Research Reports is the credible source for gaining the market reports that will provide you with the lead your business needs. At 360 Research Reports, our objective is providing a platform for many top-notch market research firms worldwide to publish their research reports, as well as helping the decision makers in finding most suitable market research solutions under one roof. Our aim is to provide the best solution that matches the exact customer requirements. This drives us to provide you with custom or syndicated research reports.

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Cellulose/Biochar Cryogels: A Study of Adsorption Kinetics and Isotherms | Langmuir

6 March, 2021
 

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Isotherm, kinetics, thermodynamics studies and effects of carbonization temperature on adsorption …

6 March, 2021
 

Biochars were prepared at various temperatures, biochar at 800°C gave optimum adsorption for indigo carmine dye

Adsorption process was by physisorption removing 94.7% dye in a 2 h equilibration period

Linear Langmuir gave best interpretation of sorption than other extrapolated isotherm models

Biochars were prepared at various temperatures, biochar at 800°C gave optimum adsorption for indigo carmine dye

Adsorption process was by physisorption removing 94.7% dye in a 2 h equilibration period

Linear Langmuir gave best interpretation of sorption than other extrapolated isotherm models

The adsorption of indigo carmine (IC) dye from aqueous solution by Chromolaena odorata biochars prepared at various carbonization temperature are presented. Biochar prepared at 800°C is the best adsorbent with maximum adsorption of the dye and hence was used as default adsorbent for the study. The results showed that 10 mg of C. odorata biochar had 94.7% removal efficiency of 75 mg/L indigo carmine dye after 2 h contact time at 30°C. Langmuir isotherm gave better goodness-of-fit than the non-linear model for the adsorption process with R2 value of 0.92. Linear Langmuir adsorption capacity (Qo) was 98.8 mg/g after 3 h equilibration time. The results indicated that the adsorption process followed pseudo second order (PSO) reaction kinetics with R2 values of 0.87. Linearity of the adsorption process was favourable at 30°C than 50°C with adsorbate concentration range of 75 to 250 mg/L. The high sorption capacity of C. odorata biomass for indigo carmine dye; qualifies it as a low-cost adsorbent for wastewater treatment.


2021 and Beyond: Biochar Fertilizer Market Research Report | Biogrow Limited, Biochar Farms …

6 March, 2021
 

March 6, 2021 (Reports and Markets) — Biochar Fertilizer

The extensive research explains the fluctuations faced by the Biochar Fertilizer market in recent years and the causes behind it as well. The experts involved researched numerous other aspects of the Biochar Fertilizer industry and attempted to make the report as informative as possible. The researchers assessed the individual market roles, past pricing patterns, and new industry entrants to predict the forthcoming shifts global Biochar Fertilizer market can encounter. After adequately evaluating the regional market distribution and statistics regarding product/service’s rural demand. The general consumers can grasp the study and its results as the report was ensured to be kept as straightforward as possible. After going through the research, the readers can get brief insights into the product/service segmentation, regional market share, and organizations’ future roles in the global Biochar Fertilizer industry.

Key Players: Biogrow Limited, Biochar Farms, Anulekh, GreenBack, Airex Energy, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Carbon Gold, Kina, Swiss Biochar GmbH, BlackCarbon, Carbon Terra, Sonnenerde, Biokol, Verora GmbH, Biochar Products, Diacarbon Energy, Agri-Tech Producers, Green Charcoal International, Vega Biofuels, Full Circle Biochar, and Pacific Pyrolysis

 Drivers and Constraints

The fundamental dynamics that are explored in the report hold substantial influence over the Biochar Fertilizer market. The report further studies on the value, volume trends, and the pricing history of the market. In addition to it, various growth factors, restraints, and opportunities are also analyzed for the market to study the in-depth understanding of the market.

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The global Biochar Fertilizer market segmented by company, region (country), by Type, and by Application. Players, stakeholders, and other participants in the global Biochar Fertilizer market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on revenue and forecast by region (country), by Type, and by Application for the period 2021-2027.

Market Segment by Regions, regional analysis covers

North America (United States, Canada and Mexico)

Europe (Germany, France, UK, Russia and Italy)

Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

South America (Brazil, Argentina, Colombia etc.)

Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Key Points of the Geographical Analysis:

Research objectives:

The report lists the major players in the regions and their respective market share on the basis of global revenue. It also explains their strategic moves in the past few years, investments in product innovation, and changes in leadership to stay ahead in the competition. This will give the reader an edge over others as a well-informed decision can be made looking at the holistic picture of the market.

Table of Contents: Biochar Fertilizer Market

Key questions answered in this report 

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China Biochar Compound Fertilizer,Soil Conditioner Biochar Compound Fertilizer Exporters

6 March, 2021
 

Kingeta Group Co., Ltd.

Carbon Base Fertilizer,new ecological Compound Fertilizer:

Implementation of standards:NY/T798-2015

Organic matter>45%

Live microbes>50million/g

Humic acid>10%

Wood vinegar>10%

WSOC>5%

NPK>5%

45%

Kingeta Group combines biological extraction technology,biochar technology and microbial technology together.take the organic material as carrier and add beneficial soil organisms 200million/g.Besides, carbon base Organic Fertilizer not noly contain biochar and colony-forming units,but also highly active substances and water soluble carbon base.

Offer OEM or ODM service.

Offer fertilizer sample for free to test.

Help you in selecting the right product for your application.

Provide you comprehensive and cutting-edage product offering .

Provide the highest level of customer suervice,competitive pricing and speed delivery .

Copyright © 2021 Kingeta Group Co., Ltd. All rights reserved.


Global Biochar Market – Breakout Live

7 March, 2021
 

Latest forecast study for the Biochar industry is covered in this report. This research report offers perilous statistics of the market which will assist the industry competitors in taking appropriate…

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Evaluation of thermal properties and acetaldehyde adsorption performance of sustainable …

7 March, 2021
 

Biocomposite was prepared by using wood waste and wood-based biochar.

Thermal performance and acetaldehyde adsorption performance were analyzed.

Use of biochar decreased the thermal conductivity and acetaldehyde concentration.

Biocomposite can improve indoor air quality and thermal performance.

Biocomposite was prepared by using wood waste and wood-based biochar.

Thermal performance and acetaldehyde adsorption performance were analyzed.

Use of biochar decreased the thermal conductivity and acetaldehyde concentration.

Biocomposite can improve indoor air quality and thermal performance.

In order to vitalize the use of wood, which is a sustainable resource, increase the utilization of resources through the recycling of wood waste, and reduce environmental pollution in the waste disposal process, biocomposite was manufactured by using biochar which can be produced with wood waste and is effective in carbon isolation. The thermal characteristics and acetaldehyde adsorption performance of the prepared biocomposite were evaluated based on the pore characteristics, surface functional groups, crystal structure, and elemental analysis results of the biochar. As a result of the experiment, as the content of biochar increased, the thermal conductivity of the biocomposite decreased and the specific heat was not affected. The acetaldehyde concentration tended to decrease as the content of biochar increased, adsorbed up to 4.4685 ppm of acetaldehyde more than the reference. From these results, it is judged that the biocomposite produced in this study can function as a sustainable composite that uses waste wood to improve indoor air quality and satisfies the performance as a building material.


Biochar journal pdf – inoxdvr.com

7 March, 2021
 

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Biochar Farms – NeighborWebSJ

8 March, 2021
 

Biochar Fertilizer Market research report is the new statistical data source added by Global Market Vision. “Biochar Fertilizer Market is growing at a High CAGR during the forecast period 2021-2027. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market”. Biochar Fertilizer Market research is […]


Biochar Fertilizer Market Exclusive Analysis 2021, Industry Reach New Opportunity and Advance …

8 March, 2021
 

“Biochar Fertilizer Market is growing at a High CAGR during the forecast period 2021-2027. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market”.

Biochar Fertilizer Market research is an intelligence report with meticulous efforts undertaken to study the right and valuable information. The data which has been looked upon is done considering both, the existing top players and the upcoming competitors. Business strategies of the key players and the new entering market industries are studied in detail. Well explained SWOT analysis, revenue share and contact information are shared in this report analysis.

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Consequence of Covid-19

With temporarily placed rules to curb the spread of the virus, COVID-19 has dented the global economy. The corporations are facing the problems associated with disrupted supply chains, which have impacted their business negatively. This business research analysis assesses the effects of this crisis and studies its implications for all current market entities. The market analysis discusses the depths of the changing economic scenario and the COVID-19 ripple effects in detail.

Key Players in the Biochar Fertilizer Market: Biogrow Limited, Biochar Farms, Anulekh, GreenBack, Carbon Fertilizer, Global Harvest Organics.

The assessment also includes production and consumption rates, gross income, average product price, and market shares of the major players. The information gathered is then broken down by regional market, production facility, and product types available in the market. Other key points such as competitive analysis and trends, concentration rate, mergers and acquisitions, and expansion tactics that are vital to starting a business in the industry are also included in the report.

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During the preparation of the report, the research team conducted several interviews with key designated executives and experts of the market. This, in turn, has helped them to understand the overall scope and complex matrix of the Biochar Fertilizer market. The market research report includes crucial data and figures about the report that aids the esteemed reader to make crucial business decisions. These data and figures are added in a concise manner in form of infographics and tables to save time.

Objectives of the Report

The market seems to be evenly competitive. To analyze any market with simplicity the market is divided into segments, such as its product types, applications, technology, end-users, etc. Segmenting the market into smaller components makes it easier to analyze the dynamics of the market with more transparency. All the data has been depicted with the help of tables and figures that consist of a graphical representation of the numbers in the form of histograms, bar graphs, pie charts, etc. Another key component that is integrated with the report is the regional analysis to assess the global presence of the Biochar Fertilizer market.

Key Questions Covered In the Report

Table of Content:

Chapter 1: Introduction, market driving force product Objective of Study and Research Scope Biochar Fertilizer market

Chapter 2: Exclusive Summary – the basic information of Biochar Fertilizer Market.

Chapter 3: Displaying the Market Dynamics- Drivers, Trends and Challenges

Chapter 4: Presenting Biochar Fertilizer Market Factor Analysis Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis.

Chapter 5: Displaying the by Type, End User and Region 2013-2018

Chapter 6: Evaluating the leading manufacturers of Biochar Fertilizer market which consists of its Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile

Chapter 7: To evaluate the market by segments, by countries and by manufacturers with revenue share and sales by key countries in these various regions.

Chapter 8 & 9: Displaying the Appendix, Methodology and Data Source

Conclusion: At the end of Biochar Fertilizer Market report, all the findings and estimation are given. It also includes major drivers, and opportunities along with regional analysis. Segment analysis is also providing in terms of type and application both.

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Massive Growth in Pyrolytic Products Market Breaking new grounds and touch a new level in …

8 March, 2021
 

Detailed research added by Ample Market Research offering a comprehensive analysis of the developments, growth outlook, driving factors, and key players of the Pyrolytic Products market in the latest research report. The research study concisely dissects the Pyrolytic Products and unearths valuable estimations pertaining to the profit projections, market size, sales capacity, and numerous other crucial parameters. Also, the Pyrolytic Products Market report appraises the industry fragments as well as the driving factors impacting the remuneration scale of this industry.

The report yields a systematic understanding of the existing trends, growth opportunities, market dynamics that are expected to shape the growth of the Pyrolytic Products market. The various research methods and tools were involved in the market analysis of Pyrolytic Products, to excavate crucial information about the market such as current & future trends, opportunities, business strategies and more, which in turn will aid the business decision-makers to take a right decision in future. The outcome of our research analysis guesstimated that the Pyrolytic Products Market is destined to perceive constant growth in the coming years.

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Competition landscape

-Business Strategies of Leading and prominent market players in Pyrolytic Products.

-Product offering and development analysis.

-Market share & positioning analysis.

-SWOT analysis of the prominent market players.

-Industry-wide business strategies and trends.

Competitive Landscape- Ace (Singapore) PTE Ltd, DOI & Co., Ltd, Byron Biochar, Nakashima Trading Co. Ltd., Agri-Tech Producers LLC, New Life Agro, Diacarbon Energy Inc, Cool Planet Energy System, Verdi Life, Nettenergy BV, Tolero Energy, Penta Manufacturer, Tagrow Co., Ltd., Vega Bioguels Inc, Canada Renewable Bioenergy Corp.

The Pyrolytic Products Market has been segregated into various crucial divisions including applications, types, and regions. Each market segment is intensively studied in the report contemplating its market acceptance, worthiness, demand, and growth prospects. The segmentation analysis will help the client to customize their marketing approach to have a better command of each segment and to identify the most prospective customer base.

Market Analysis By Applications: Industrial, Agriculture and Livestock, Air, Soil and Water Treatment, Horticulture, Others

Market Analysis By Type: Bio-Oil, Biochar, Syngas, Wood Vinegar, Others 

Market Analysis By Regions: North America (Covered in Chapter 9), United States, Canada, Mexico, Europe (Covered in Chapter 10), Germany, UK, France, Italy, Spain, Russia

The Research Aims to Addresses the Following Doubts Pertaining to the Pyrolytic Products Market

 

How can the research study help your business?

(1) The information presented in the report helps your decision-makers to become prudent and make the best business choices.

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(3) It offers you a forward-looking perspective of the Pyrolytic Products market drivers and how you can secure significant market gains in the near future.

(4) It provides a SWOT analysis of the Pyrolytic Products market along with useful graphics and detailed statistics providing quick information about the market’s overall progress throughout the forecast period.

(5) It also assesses the changing competitive dynamics of the Pyrolytic Products market using pin-point evaluation.

To conclude, the Pyrolytic Products Market report will provide the clients with a high-yielding market analysis assisting them to understand the market status and come up with new market avenues to capture hold of the market share.

If you have any special requirements, please let us know and we will offer you the report at a customized price.

Table of Content:

Chapter 1 Market Overview

Chapter 2 Industry Chain

Chapter 3 Environmental Analysis

Chapter 4  Market Segmentation by Type

Chapter 5 Market Segmentation by Application

Chapter 6  Market Segmentation by Region

Chapter 7 Market Competitive

Chapter 8 Major Vendors

Chapter 9 Conclusion

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You can also get individual chapter wise section or region wise report versions like North America, Europe or Asia or Country like US, UK, China and other.

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Global Biochar, Bonechar, Phosphate Fertilizers Market Research 2020 New Report, COVID-19 …

8 March, 2021
 

​Global Biochar, Bonechar, Phosphate Fertilizers Market Size Analysis – Competition Bench marking, Industry Trends, Market Share & Forecast 2020-2025

The Report firstly introduced the Biochar, Bonechar, Phosphate Fertilizers basics: definitions, classifications, applications and market overview; product specifications; manufacturing processes; cost structures, raw materials and so on. Then it analyzed the global region market situations, including the product cost, profit, volume, production, supply, demand, and market growth rate and industry Outlook etc. In the end, the report introduced new outline SWOT analysis, investment feasibility analysis, and investment return analysis.

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Some of the key players profiled in the report are,

Development opportunities in Biochar, Bonechar, Phosphate Fertilizers industry, market scope, investment feasibility, growth trends are presented in this report. The forecast industry information will help the existing and new entrants in planning their business and growth strategies. Biochar, Bonechar, Phosphate Fertilizers report aims to deliver the most accurate market statistics which will help the readers in making informed decisions.

The report discusses the key trends which are presently affecting the market and could have a COVID-19 impact on the future of the global Biochar, Bonechar, Phosphate Fertilizers market. The potential opportunities which lie in this market and which will drive the growth prospects of the global Biochar, Bonechar, Phosphate Fertilizers market are also discussed.

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Market Segment By Type:

Market Segment By Application:

Biochar, Bonechar, Phosphate Fertilizers market is studied on the basis of two important factors namely revenue (USD Millions) and Volume. The latest trends, key strategies, emerging Biochar, Bonechar, Phosphate Fertilizers sectors, industry plans, and policies are analyzed comprehensively. The research methodology implied by our team comprises primary and secondary techniques to provide the 360-degree Biochar, Bonechar, Phosphate Fertilizers industry.

Market Segment By Region:

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The main emphasis of this report

Global Biochar, Bonechar, Phosphate Fertilizers Market Short Description Of TOC:

chapter 1 Global Biochar, Bonechar, Phosphate Fertilizers Market Overview(Biochar, Bonechar, Phosphate Fertilizers Industry, Market Sector, Cost Analysis), upstream and downstream market segmentation, and the price analysis)

chapter 2 Global Biochar, Bonechar, Phosphate Fertilizers Market Industry Environment

chapter 3 Global Biochar, Bonechar, Phosphate Fertilizers Market By Type(Segment Overview, Market Size, Market Forecast)

chapter 4 Global Biochar, Bonechar, Phosphate Fertilizers Market Top Key Vendors

chapter 5, 6 Global Biochar, Bonechar, Phosphate Fertilizers Market Competition (Company Competition) and Biochar, Bonechar, Phosphate Fertilizers Market Demand Forecast

chapter 7 Global Biochar, Bonechar, Phosphate Fertilizers Market Key Analysis of Output, Market and Forecast by Region-wise i.e Europe,South America etc..

chapter 8 Global Biochar, Bonechar, Phosphate Fertilizers Market Trend Analysis, Regional Market Trend, Market Trend by Product, Market Trend by Application ;

chapter 9 The Consumers Analysis of Biochar, Bonechar, Phosphate Fertilizers Market(Sales Revenue, Price, Gross Margin)

chapter 10 Global Biochar, Bonechar, Phosphate Fertilizers Market Research Findings and Conclusion, Appendix, methodology and data source;

Review the Complete TOC: https://www.reportspedia.com/report/chemicals-and-materials/2020-2025-global-biochar,-bonechar,-phosphate-fertilizers-market-report—production-and-consumption-professional-analysis-(impact-of-covid-19)/80897#table_of_contents


Industrial Grain/Fiber Hemp Cultivation with Basalt Rock Dust, Biochar and Compost Amendments …

8 March, 2021
 

Agriculture is emerging as an essential component in combating catastrophic climate change in addition to mitigating ecological and economic instabilities through increased food security.  One strategy for negative emission technologies (NETs) is enhanced weathering (EW) in which powdered basalt silicate rock with a high reactive surface area is incorporated into cropland. When used in concert with biochar and compost, a synergistic effect occurs amplifying the benefits of each.1  Industrial hemp facilitates further carbon capture due to its ability to absorb more CO2 per acre than any forest or commercial crop.15 Its seed is a complete protein and source of omega 3, an essential fatty acid.  It’s fiber offers commercial replacements for net carbon-emitting industrial products like bio-composites and insulation. 

 

Chicken of the Woods Permaculture Farm’s (COWPF) research proposal  seeks to maximize carbon removal from the atmosphere while maintaining optimal production and soil health, using a combination of basalt rock dust, biochar and compost amendments within a regenerative agricultural model to grow industrial hemp for grain and fiber.

 

Throughout these field trials, total, organic and inorganic carbon levels pre and post-treatment, ongoing monitoring and soil characterization in addition to yield data will elucidate long-term effects on soils, crops and economic viability.

 

We will source farm volunteers and interns for this project from hemp partner, Hood College, Wwoofer USA and local 4H and homeschooling cooperatives. Findings will be disseminated to local farmers through on-farm Demonstration Days, workshops, Mountain Maryland Hemp Alliance meetings and online farmer forums.

COWPF consists of 4.75 acres on the edge of the country’s largest Agricultural Reserve in Darnestown, Md. We operate a year-round, hyperlocal pastured egg and vegetable CSA. We house 7 goats and 9 ducks for land-clearing purposes and eventually for milk and meat products. For the past two seasons, we have grown high-CBD hemp and vegetables bio-intensively and within a 30’x72′ high tunnel. Our customer base includes the 90 home subdivisions adjacent to the farm, Manna Food Bank, customers at the Darnestown Farmers Market, and online sales of value-added hemp products such as teas and salve.

 

In 1999, I interned at Claymont, a biodynamic farm in WV and at Barking Frogs Permaculture Farm. I then worked as a biologist at USDA’s ARS Climate Stress Lab and at the American Type Culture Collection in the Molecular Genomics laboratory, gaining proficiency in experimental field setup, technical writing, laboratory protocols and quality control. I have managed an urban community garden, and completed a Master Gardener program. From 2014-2020, I led a student-run organic farm at Butler Montessori. In 2019, I completed my Permaculture Design certificate with a complete site design for COWPF. I am now working part-time on the farm hosting weekly volunteer opportunities for Wwoofers in addition to a Farm and Forest Homeschooling Cooperative. Volunteers in these programs translate to the manpower hours of two full time employees. Gross sales have surpassed $5,000 for the last three years.

 

Farm resources include a tractor with bucket, onsite supply of compost, and irrigation equipment. Montgomery County’s Farm to Food Bank Program granted us $13,000 to purchase a walk-behind tractor with four implements, broadforks and materials to expand our grow room. This winter, we plan to use a $6,000 matching grant award from MARBIDCO for a whole property deer fence.

With the widespread modernization of farming in the mid-20th century, contemporary agricultural practices, such as synthetic nitrogen fertilization, tillage, monocropping, and yield-based management systems have accelerated the depletion of soil carbon stocks, adding to the anthropogenic atmospheric load of N2O and CO2.12 The global food system at large, including feed, fertilizer and pesticide manufacture, processing, transportation, refrigeration and waste disposal, accounts for 30% or more of total annual global greenhouse gas emissions (GHG). As efforts to wean society off fossil fuels have stalled, “natural climate solutions” such as soil carbon sequestration have rapidly gained steam. In 2018, the National Academies of Sciences, Engineering, and Medicine reported that implementing NETs on a large scale, rather than simply reducing new emissions of carbon are needed to stabilize global warming below 2o Celsius (3.6o Fahrenheit), the level scientists believe could be catastrophic. The need to drastically reduce GHGs is being addressed through the USDA’s Agriculture Innovation Agenda (AIA), a department-wide effort to align resources and research to provide farmers with the tools they need and to position American agriculture as a leader in the effort to meet the food, fiber, fuel, feed, and climate demands of the future while cutting the environmental footprint of U.S. agriculture in half by 2050. 

 

Licensed U.S. total hemp acreage reached 465,787 acres for the 2020 production season. Farmers are planting less hemp than they did last year due to regulatory uncertainty, a surplus of hemp flower and biomass held over from 2019, and continuously falling wholesale prices, all of these directly traceable to inadequate link up of farms with processors and manufacturers. Given hemp’s worldwide commodity success in China, EU and Canada, hemp has a bright future but many farmers are struggling to pivot to non-CBD uses of hemp, such as grain and fiber. Our investigation seeks to facilitate this transition from a medicinal or therapeutic crop to a nutritional and fiber one. 

 

In order to meet these multifaceted challenges, COWPF proposes an investigation to build a holistic model for hemp production, ensuring its role as an economically viable, climate resilient, net carbon negative, high-protein food and fiber source.3 We will use compost, biochar and basalt rock dust amendments, no-till practices and alleycropping or perennial intercropping to support optimum soil and crop health. The findings will guide farmers to make informed financial decisions while maintaining the economic and ecological integrity of their land. 

 

This model incorporates multiple aspects of sustainable agriculture. Hemp is an ideal grain crop for organic farming because it requires minimal inputs, is fairly resistant to pests and diseases, and due to its fast growth rate, outcompetes most weeds, thus reducing the need for herbicides, pesticides and weeding. This reduces environmental and health risks and increases soil conservation due to reduced tillage for weed control. Improved productivity from dual-purpose hemp varieties allow for grain and fiber harvests versus a single use crop. Meeting on-farm fuel requirements from hemp-derived biofuel could result in additional income savings.

 

In addition, no-till and organic practices protect waterways from chemical and sediment contamination while alleycropping and on-contour swales act in synergy with rainwater/runoff catchment, woody perennials and biochar. The water collected from swales creates mini-bogs to slow the breakdown of carboniferous solids. The biochar ‘sponge’ acts as a food source and habitat for microbes and fungi that in turn provide nutrients to the annual crops. The woody perennials planted on the low side of the swales in the excavation soils ensure that fungi remain present through the symbiotic relationship with the plants’ roots. The perennials also stabilize carbon through their biomass which via pyrolysis returns to the soil as biochar.18

 

The World Business Council for Sustainable Development claims that the agricultural use of rock dust acts as a multifunctional fertilizer in addition to offering a global incentive for sequestering inorganic carbon. It supplies macro and micronutrients while improving the physical, chemical and biological qualities of the soil.4 At the field level, these effects materialize in multiple profits for farmers, including an improved workability of the heavy clay soils, greater water holding capacity , increased yields of the cultivated crops, and multi-season benefits and savings due to decreased application and purchase cost relative to conventional fertilizers.8 

 

If implemented on a larger scale, the annual growth rate of soil carbon stocks achieved through the myriad usage of NETs could, in conjunction with net zero emissions, prevent or slow the passage of climate change tipping points.

The Leverhulme Centre for Climate Change Mitigation has stated that the magnitude of future climate change could be moderated by immediately reducing the amount of CO2 entering the atmosphere as a result of energy generation and by adopting strategies that actively remove CO2 from it. They concluded that the substitution of a weatherable silicate rock such as basalt with increased application rates over those used in conventional liming operations may offer a pragmatic, rapidly deployable global carbon cycle intervention strategy.4

 

The proposed methodologies in these field trials include enhanced weathering of powdered silicate rock dust, biochar and compost amendments, cover cropping, no-till and perennial intercropping. Emerging science from programs like UC Davis’s Working Lands Innovation Center (WLIC) shows that EW can both slow global warming and improve soil health, making it possible to grow crops more efficiently, bolster food and soil security and reduce ocean acidification.Models estimate that amending two-thirds of croplands with basalt dust could extract 0.5–4 PgCO2/yr-1 by 2100. For comparison, in 2018, global fossil fuel emissions reached 10 ± 0.5 PgCO2/yr-1.  On WLIC’s 29 field sites early trials to determine if pulverized rock, compost and biochar can sequester carbon in varying crops show a more pronounced effect in organic compared to conventionally managed corn, suggesting that sites with high organic matter might experience a significant triage effect on C sequestration.18 The myriad co-benefits, low cost ($20-60/t CO2) and relative ease of deployment make this a CO2 removal strategy that demands rapid testing, development, distribution, and deployment.9 

 

Industrial hemp has been scientifically proven to absorb more CO2 per hectare than any forest or commercial crop, and is therefore an ideal carbon sink, thus fulfilling the role of supplying bio-energy with carbon capture and storage (BECCS). In addition, hemp seeds are rich in healthy fats and essential fatty acids. They are also a great protein source and contain high amounts of vitamin E, phosphorus, potassium, sodium, magnesium, sulfur, calcium, iron and zinc. Additional CO2 is permanently bonded within the fiber and can replace a multitude of carbon-emitting commercial products.16  Hemp can also sequester carbon back into the soil through a process called biosequestration. According to Holon Ecosystem Consultants, hemp provides as much as 13 tons of biochar per hectare annually, which would triple the output of Salix (a popular biomass crop) plantations. With its resurgence, grants have been awarded for hemp processing plants in Western Maryland and another forthcoming to the DC area. This will greatly facilitate farmers in the sale of feedstock and other hemp products.

 

The Rodale Institute, home to the longest-running side-by-side comparison of organic vs. conventional farming practices, found  that global adoption of regenerative practices across both grasslands and arable acreage could sequester more than 100% of current anthropogenic emissions of CO2 and that stable soil carbon can be built quickly enough to result in a rapid drawdown of atmospheric carbon dioxide.16

 

Regenerative agricultural practices that support soil carbon sequestration include diversifying crop rotations, planting cover crops, green manures, and perennials, retaining crop residues, using natural sources of fertilizer, such as compost, employing highly managed grazing and/or integrating crops and livestock, reducing tillage frequency and depth and eliminating synthetic chemicals. Through alley cropping, fast growing woody perennials like  Viminalis Willow and Giant Miscanthus provide the raw materials to create biochar through a process called pyrolysis.19 This movement of carbon from atmosphere, through plant, into biochar and back to the soil for long term stability is part of COWPF positive biofeedback loop results in a carbon negative farm model. If management of all current cropland shifted to a regenerative system like the one described above, farmers could potentially sequester 8 times more than cover crops alone, or 32% of annual CO2 emissions.12

 

While on-farm SARE research projects have studied the effects of biochar and compost in addition to carbon sequestration rates of hemp in conjunction with cover crops, there are no completed projects studying enhanced weathering with basalt rock dust or its relationship with biochar and compost on hemp yield.5,13

 

COWPF is adjacent to the largest agricultural reserve in the United States. We hope the dissemination of findings from these proposed field trials, along with additional scientific evidence supporting these practices, will convince farmers to abandon the pollutive, soil depleting practice of Roundup Ready corn/soy rotations and return health to their ecosystems while increasing food security and creating best agricultural practices that benefit people and the planet.

This project seeks to investigate the effects of enhanced rock weathering on hemp grain and fiber production within the context of a regenerative agricultural model.

 

If the above objectives are met, farmers will gain a deeper understanding of the interconnectedness on their farm ecosystems, see immediate improvements in soil/crop health and yield and understand how to create a closed circular economy. Farmers will gain confidence in their knowledgebase and the economic means as small-scale sustainable growers to produce nutrient dense food without government subsidies.

Materials and Method

 

1.1. Study Site

The study area is located in  39˚06’55”N latitude and 77˚16’47”W longitude in Darnestown, Maryland at an elevation of 400 feet. Soils are Glenelg silt loam characterized as deep, well drained formed  on the uplands of the Blue Ridge and the Northern Piedmont. The mean annual precipitation is 50″ inches and mean annual air temperature is 52oF. The frost-free period is 150 to 192 days. The area is classified as prime farmland. 

 

1.2 On-farm demonstrations and soil characterization

These descriptions are variable and subject to interpretation. Throughout the growing season, environmental factors (e.g., rainfall, temperature, other weather events) will be recorded. Location notes, slope, aspect, and vegetation, moisture status, structure, consistency, texture, rocks and roots, carbonates and infiltration will also be recorded for each block. 20

 

1.3. Experimental Design

We are using a randomized block design consisting of four blocks comprising eight 3 m x 24 m plots. Each block consists of no-till/broadforked raised beds with variable pre-existing vegetable or land use (bio-intensive beds, pasture, lawn and fallow field) delineated based on their consistently similar land usage to reduce variances in soil characteristics. Each block has 3 12” deep by 48” wide swales on contour on high and low elevations and bisecting the block at 12 m planted in an alleycrop-style of woody perennials for long term microbial and fungal habitats in addition to woody biomass supply for biochar. Plots will be delineated with buried metal rods for future locating and sampling.  Each will be assigned one of the following treatments: Rock + Compost, Rock + Biochar, Control, Rock + Compost + Biochar, Rock, Biochar, Compost + Biochar and Compost. To minimize edge effects, each plot receives a 1m buffer zone (or sampling subplots within our plots) to prevent sample contamination.20

 

1.3.1  Pre-treatment

A BCS walk-behind tractor compost spreader will apply treatments. 

Crushed Basalt Rock (R)

Source: Rock Dust Local

Application Rate: 17.84 US tons/acre

 

Compost (C)

Source: Leafgro®

Material: Yard waste, primarily grass clippings, and leaves.

Application Amount Row Crops: 4 US tons/acre wet weight

 

Biochar (B)

Source: Chicken of the Woods Permaculture Farm

Material: woodchip refuse from tree surgeons

Application Rate: 6.46 US tons/acre dry weight 

 

*10% buffer added to all quantity totals

 

1.3.2 Soil Sampling

Baseline soils, sampled from 0-100 cm, will be collected prior to treatments and annually after harvest for testing. This will establish one or more benchmarks or fixed plots from which a time series of multiple samples, repeated annually past grant end date, will be taken and analyzed, in order to detect and measure change to be used as part of a long term soil carbon monitoring plan. Soils will be sampled using a step soil probe 40 cm deep in replicates of 4 for each plot.17

To scale up carbon sequestration rates on a per area basis, we will determine Bulk Density using the Equivalent Soil Mass method, for which at least three soil depth intervals are required.6 Sample with a 2.75 in soil auger. Take volume measurements prior to removing auger. Use a laboratory disc mill to grind soil samples into a fine powder. Dry and weigh samples. Calculate bulk density: D = W/V (W:weight; V:volume). For resampling, use this equation to calculate the new volume that you should sample: V2 = (V1 × D1)/D2.

 

1.3.3 Soil processing and elemental analysis

 Soil samples will be processed according to submission guidelines and tested for Total, Inorganic and Organic Carbon using an elemental combuster

 

1.4. Planting, Harvest and Data Collection

The seeding rate is 12 seeds/ft2 and will be adjusted for germination and 1000 kernel weight (kwt) with an additional 25% added to allow for seedling mortality. Planting depth is ½”. Plot size is 80 feet long x 10 feet wide and consists of 30″ beds 12″ paths. Using machetes, sickles and loppers, stalks are chopped in 3 replicate (randomly determined) interior subplots per plot where biomass is collected in 3 m lengths of each hemp row sampled. Plant materials are separated by stalks and seedhead (stored in burlap bags), and seed is removed and cleaned using a hemp thresher. Plant materials are dried at 60°C and weighed before and after drying. A subsample is also dried at 105°C for moisture content, which is used to correct wet weights to determine dry stalk yield.19 Samples are dried then processed to determine yield, test weight and 1000 kwt. Plant samples are sent for laboratory analysis for  <0.3% THC to obtain industrial hemp classification.

 

1.5 Economic Evaluation

Hemp grain and fiber profits in conjunction with costs incurred from the regenerative agricultural practices of no-till, alleycropping, organic amendments encompass the following economic evaluation datasets: Mean yields, Mean costs and Unit price per lb of each treatment. Net profit (NP), marginal net return (MNR), value-to-cost ratio (VRC), and marginal rate of return or profit rate (MRR or PR) are then calculated. For a VRC>1, profit is expected, but if VRC<1, no profit is expected. Nevertheless, for a VRC≥2, at least 100% profit rate of the total investment is expected and the treatment is worth popularizing. The gross benefit (GB) of a fertilizer treatment is obtained by multiplying the yield per treatment by the field price per lb of hemp seed and fiber. The operation cost (OC) on the other hand consists of the fertilizer cost (FC), transport cost (TC), fertilizer spreading cost (FSC), marginal net return (MNR) and the investment interest (II) during the planting period. The MNR is obtained by multiplication of the unit price of the hemp seed and the difference between the yield with amendment use and yield without amendment use. The MNR is obtained as the difference between the GR (gross revenue) and the RCF (revenue cost of fertilizers). The MRR (or PR) was calculated using the following expression:

PR (or MRR) = (MNR-RCF)/RCF * 10017

 

1.5.1 Emissions Evaluation

We plan to work in concert with our county’s Office of Agricultural Services using a platform called COMET-Farm. The tool provides estimates on carbon sequestration and greenhouse gas emissions related to annual crop production and on-farm energy use. We will use it to evaluate the benefits of various conservation practices thus helping facilitate decisions relating to the generation of voluntary carbon offsets, meeting the increasing requirements of sustainable supply chain requirements within the marketplace, and helping farmers make informed emissions/sequestration decisions that support climate change solutions.

 

1.6 Data Analysis

Mass of carbon in a single stratum (layer of soil in a horizontal stratum):

CTotal= CF × D × V (6.1)  

CTotal is total carbon for the layer in metric tons, CF is the fraction of carbon (percentage carbon divided by 100), D is density, and V is volume of the soil layer in cubic meters.  

Tons of carbon per hectare: T = Thcm × D × Cpercent where T is tons of carbon per hectare, Thcm  is the thickness of the sampled layer in centimeters, D is density, and Cpercent is the percentage of carbon.6

Per  the proposal summary, we will source farm volunteers and interns for this project from hemp partner, Hood College, Wwoofer USA and local homeschooling cooperatives. Findings will be disseminated to local farmers through on-farm Demonstration Days and Workshops.

 

Mountain Maryland Hemp Alliance (MMHA), established in 2020 as the first industrial hemp grower cooperative alliance in Maryland and WV, now has over a dozen farm members, an outreach committee, and recently won a $50,000 ARC POWER Phase 1 grant to develop a hemp processing center serving a 100-mile radius in MD, WV and PA. COWPF will also work with Elysian Holdings, an MMHA co-founder, compostable hemp packaging company, and member of the Bethesda Green accelerator program.

 

Montgomery Countryside Alliance whose mission is to promote sound economic, land-use and transportation policies that preserve the natural environment, open spaces and rural lands in Montgomery County’s Agricultural Reserve for the benefit of all Washington Metropolitan area residents will offer COWPF an online platform to brief local/regional producers on our process/findings. Recorded sessions can be linked and shared more widely thereafter.

 

In the interest of scalability and accessibility for EW in commercial agriculture, we will explore low-cost methods for estimating TOC in soil, while also producing rigorous data for comparison with GC/MS (gas chromatography/mass spectrometry) at Hood College, our partner research institution required through the MD Department of Agriculture’s hemp permitting process in 2019 and 2020. Research findings will be presented at their online seminar series attended by the undergraduate Biology students and faculty.

March 2021 

Purchase, receive and assemble all materials for project/6 hrs/Bridgette Downer

Layout and mark plots/12 hrs/Bridgette Downer and Intern 

Sample and characterize the soil; submit for testing/16 hrs/Bridgette and Intern

Mix and Apply amendments/12 hrs/Bridgette and Intern

Inoculate, seed and rake in Arvika Pea Cover Crop/14 hrs/ Bridgette and Intern

April 2021

Mulch woody perennials/20 hrs/Bridgette and Intern

May 2021

Flail mow Arvika Pea Cover/6 hrs/Intern

June  2021

Set up irrigation system/8 hrs/Bridgette and Intern

Seed hemp/4/Bridgette and Intern

Solidify and confirm Elysian Holdings and other buyers for hemp fiber and grain/10 hrs/ Bridgette

July 2021

On-farm demonstration day planning, advertising and implementation/8 hrs/ Bridgette and Intern

Video tour of farm and description of research/ 8 hrs/ Bridgette and Intern

August  2021

Harvest, weigh and dry fiber for yield analysis/30 hrs/ Bridgette and Intern

September 2021 

THC testing through Department of Agriculture/3 hrs/ Bridgette

Harvest grain for yield analysis/ Bridgette and Laborer/ 24

Sample soils and submit/4 hrs/ Bridgette and Intern

Thresh, dry and store/18 hrs/ Bridgette and Laborer

October 2021 

Data analysis and conclusions/20 hrs/ Bridgette/

November 2021 

Populating Moco Alliance’s platform to display research to /4 hrs/ Bridgette

Publishing a brochure outlying objectives and findings for Montgomery County Department of Agriculture’s main office/4 hrs/

Bridgette

This site is maintained by SARE Outreach for the SARE program and is based upon work supported by the National Institute of Food and Agriculture, U.S. Department of Agriculture, under award No. 2019-38640-29881. SARE Outreach operates under cooperative agreements with the University of Maryland to develop and disseminate information about sustainable agriculture. USDA is an equal opportunity provider and employer.


Co‐generated fast pyrolysis biochar mitigates green‐house gas emissions and increases carbon …

8 March, 2021
 

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Global Water Conditioning System Market Qualitative Analysis, Demand, Reliability, Innovation in …

8 March, 2021
 

Global Water Conditioning System Market report spotlights major statistics of the present business state and maybe a helpful source of developments and opportunities for people and corporations interested in the business. The report primarily focuses on the market growth in productivity, demand, trade, and investment with company profiles, specifications, and product picture. Worldwide Water Conditioning System market study predicts revenues for applications across key regions with the scope of the market, manufacturing cost structure analysis, and merchandise summary.

Request for a free sample report at:https://marketstream.biz/report/water-conditioning-system/7717#requestforsample

Competitive Insights of world Water Conditioning System Market
The Water Conditioning System market consists of international and regional vendors. various regional vendors are giving custom-built solutions at lesser costs than international vendors for increasing their presence within the worldwide industry. though many new vendors are coming into the Water Conditioning System market, they notice it troublesome to contend with the international vendors based on factors like quality, features, functionalities, and services.

The leading players of the Water Conditioning System market include

Culligan, RainSoft, H2O Engineering, Pelican Water, General Electric Company, Pelican Water Systems, Harvey Water Softeners Ltd

Read complete report @https://marketstream.biz/report/water-conditioning-system/7717#toc

The competitive atmosphere within the Water Conditioning System market is probably going to accentuate throughout the forecast period with a rise in product extensions, technological innovations, and strategic M&A activities.

Water Conditioning System Market Segmentation

Type Analysis of Water Conditioning System Market:

Water Purification System, Water Softening System

Applications Analysis of Water Conditioning System Market:

Residential, Commercial, Industrial

Globally, Water Conditioning System market spread across-
1. North America Country (United States, Canada)
2. South America
3. Asia Country (China, Japan, India, Korea)
4. Europe Country (Germany, UK, France, Italy)
5. other Country (Middle East, Africa, GCC)

Report Highlights of world Water Conditioning System Market:

*The report portrays an extensive analysis of current/future Water Conditioning System market trends to spot the investment opportunities.
*Market forecasts till 2025., using projected market values as the base numbers.
*Key Water Conditioning System market trends across the regions, business segments, and countries.
*Key developments and techniques ascertained within the market.
*Water Conditioning System market dynamics like Restraints, Drivers, Opportunities.
*In-depth company profiles of key players and forthcoming projected players.
*Market forecast 2020-2025.
*Growth prospects for among the emerging nations through 2025..
*Water Conditioning System market share opportunities and suggestions for brand spanking new investments.

For additional data or Any question Visit:https://marketstream.biz/report/water-conditioning-system/7717#inquiry


Biochar Market Research with COVID-19 | Cool Planet, Biochar Supreme, NextChar, Terra Char …

8 March, 2021
 

Our analysts monitoring the situation around the Globe explain that after COVID-19 crisis the market will generate remunerative prospects for producers. The goal of the report is to provide a further illustration of the current scenario, economic slowdown and effect of COVID-19 on the industry as a whole.

In a recent RA Research publish Global Biochar Market Insights, Forecast to 2025, analysts provide an in-depth analysis of the global market for Biochar. By analyzing its historical and forecast data, the analysis analyzes the different aspects of the market. Some are part of the coverage and are the core and emerging players being profiled Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels, Carbon Gold, Kina, Swiss Biochar GmbH, BlackCarbon, Carbon Terra, Sonnenerde, Biokol, ECOSUS, Verora GmbH.

During the forecast period, the report also mentions the expected CAGR of the global market Biochar. The report provides readers with accurate historical statistics and predictions of the future.

Get Biochar Market Free Sample PDF Copy Here @: www.researchallied.com/request-sample/11661-biochar-sales-market

Geographical Analysis:

• North America: United States, Canada, and Mexico.
• South & Central America: Argentina, Chile, and Brazil.
• Middle East & Africa: Saudi Arabia, UAE, Turkey, Egypt and South Africa.
• Europe: UK, France, Italy, Germany, Spain, and Russia.
• Asia-Pacific: India, China, Japan, South Korea, Indonesia, Singapore, and Australia.

Segment Analysis:

Analysis of the market segment includes the two major product and service categories as well as the end user. Such a segmentation enables a granular view of the market that is needed to understand the finer nuances.

Key manufacturers in the Biochar Market:

Cool Planet, Biochar Supreme, NextChar, Terra Char, Genesis Industries, Interra Energy, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC), ElementC6, Vega Biofuels, Carbon Gold, Kina, Swiss Biochar GmbH, BlackCarbon, Carbon Terra, Sonnenerde, Biokol, ECOSUS, Verora GmbH

Competitive Landscape:

Competitive landscape studies new strategies that various manufacturers are using to increase competition and retain their market position. The research report includes approaches such as product development, innovative technologies, mergers and acquisitions, as well as joint ventures. This will help the reader grasp the rapidly growing current trends. It will also educate the reader on the new products that once replace the conventional. For absolute clarity, all this has been clarified in full detail.

Browse for Full Report at @: www.researchallied.com/report/11661-biochar-sales-market/

** The market is valuated based on the weighted average selling price (WASP) and includes the taxes applicable to the manufacturer. All currency conversions used in the creation of this report were calculated using a certain annual average rate of 2019 currency conversion.

** The Values marked with XX is confidential data. To know more about CAGR figures fill in your information so that our business development executive can get in touch with you.

Some of the Points cover in Global Biochar Market Research Report is:

Chapter 1: Overview of Global Biochar Market (2014-2025)
Chapter 2: Market Competition by Players/Suppliers 2014 and 2018
Chapter 3: Sales (Volume) and Revenue (Value) by Region (2014-2018)
Chapter 4, 5 and 6: Global Biochar Market by Type, Application & Players/Suppliers Profiles (2014-2018)
Continued……..

Note: Regional Breakdown & Sectional purchase Available We provide Pie chats Best Customize Reports As per Requirements.

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Research Allied is a global market research and consulting service provider specialized in offering wide range of business solutions to their clients including market research reports, primary and secondary research, demand forecasting services, focus group analysis and other services. We understand that how data is important in today’s competitive environment and thus, we have collaborated with industry’s leading research providers who works continuously to meet the ever-growing demand for market research reports throughout the year.

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Biochar Market Latest Trends and Future Growth Study by 2025

8 March, 2021
 

Global Biochar Market: Snapshot

The global biochar market is observing a significantly high rise in its valuation, thanks to the increasing preference for organic food among consumers across the world. The ability of biochar to improve the fertility of soil and enhance the growth of plants has surfaced as the main factor behind the growth of this market. Currently, synthetic and several other bio-based fertilizers are dominating the agricultural scenario, globally. However, the awareness about the benefits of biochar is spreading gradually among farmers and agriculturists, thereby, creating massive opportunities for further growth of this market in the coming years.

Get Sample Copy of the Report @ https://www.tmrresearch.com/sample/sample?flag=B&rep_id=1703

The global market for biochar includes both organized and unorganized manufacturers of biochar. Emerging countries, such as Japan, Brazil, China, and Mexico report of a prominent amount of biochar production from the unorganized sector, primarily manufactured by villagers in association with research institutes and various non-governmental support groups. However, the number of the organized players is anticipated to increase substantially in these countries over the next few years, thanks to the escalating demand for organic food, worldwide.

The full potential of biochar is yet to be realized in the agricultural sector and is projected to surface as a particularly important factor in the overall progression of the food sector in the near future. Water treatment is projected to emerge as an important application area of biochar in the years to come, especially in developing economies.

Global Biochar Market: Overview 

Biochar is a time-honored soil amendment practice and also a fine solution to climate change effects. Regions with insufficient supply of chemical fertilizers, organic resources, and water can significantly benefit from this highly porous and fine-grained charcoal. Along with bioenergy, it can displace fossil fuel usage and sequester carbon in well-balanced soil carbon pools to tackle climate change. Biochar has won worldwide appreciation for its unique soil enhancing properties with the widespread prominence of the Amazon’s biochar-rich dark lands. 

Global Biochar Market: Key Trends 

With a substantial rise in population size, organic food has drew in a lot of demand, owing to which the biochar market is expected to invite a handsome growth. The credit for this growth could be given to biochar’s propensity for improving plant development and soil fertility. The improving agricultural industry in different nations such as Australia, Germany, Canada, and the U.S. is anticipated to aggravate the demand for biochar. As a result, the global market is predicted to record a healthy growth over the coming years.

Request TOC of the Report @ https://www.tmrresearch.com/sample/sample?flag=T&rep_id=1703

Large-scale gasification projects receiving support from Europe and North America governments and the increasing performance of organic farming are projected to put the world biochar market is a good position. The rise in meat consumption and growing significance of biochar in livestock farming benefiting with key nutrients are forecasted to set the tone for the market.

The growth in the global biochar market could be impeded on account of technological and financial barriers. Besides this, the ignorance of consumers on the part of biochar’s long-term advantages is foretold to delay the market growth. Howbeit, a considerable expansion of the market is expected to occur as organic food and farming open up new opportunities. 

Global Biochar Market: Market Potential 

Biochar possesses a massive potential to reduce the proportion of carbon dioxide in the atmosphere, in fact, virtually every greenhouse emission. This could be an epic breakthrough in the elimination of climate-warming black carbon. Capable of enduring the test of time for survival, this super charcoal can sequester carbon dioxide many times longer than trees. For producers which operate in areas where labor cost is economical but maintenance expenditure is large, biochar production could be ideal. This is because of the simple and low-priced equipment required to convert soy hay and other wastes into biochar. In a way, the biochar market is deemed to be a great medium to minimize the gap between smart business and smart environmentalism. 

Global Biochar Market: Regional Outlook 

The biochar sector is envisaged to be developed at a telling rate on the back of regions such as Europe and North America, registering an elevating rise in the count of small and medium scale manufacturers. A steady progress is foreseen to be witnessed by Australia as the awareness about the advantages and benefits of biochar escalates across the country. Followed by Europe, North America is prognosticated to record a dominant share in the global biochar market. Producers of biochar can also find opportunities in other markets such as Asia Pacific and Rest of the World. 

Global Biochar Market: Competitive Landscape 

Players in the biochar market receive support from companies supplying pyrolysis technology and wood pellets and residue. Phoenix Energy, Cool Planet Energy Systems Inc., Pacific Pyrolysis, and 3R ENVIRO TECH Group are some of the top firms involved in the pyrolysis technology business. Wood pellets and residue are primarily provided by timber businesses such as West Fraser, Georgia-Pacific, and Weyerhaeuser. Out of the prominent biochar players in the international market, Biochar Supreme, LLC is prophesied to make the cut. The analysts anticipate the market to own a fragmented character.

Read Comprehensive Overview of Report @ https://www.tmrresearch.com/biochar-market

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111908444 Method for remarkably increasing value of biochar – Patentscope

8 March, 2021
 

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Debate over Taunton gasification plant heats up

8 March, 2021
 

A rendering of the proposed Aries gasification facility in Taunton.


Webinar: Lifecycle Assessment and Economics of Biochar From Forest Residues 20170823 1700 …

8 March, 2021
 

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Biochar Industry Market – Breakout Live

9 March, 2021
 

Biochar is a charcoal that acts as a soil conditioner to help plants grow. It can be used in agricultural applications as well as in carbon collection and storage, unlike…

​Global Biochar Market Size Analysis – Competition Bench marking, Industry Trends, Market Share & Forecast 2020-2026 The Report firstly introduced the Biochar basics: definitions, classifications, applications and market overview; product…

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Biochar Market Report – Research, Industry Analysis Reports and Market Demands

9 March, 2021
 

COVID-19 Outbreak-Global Biochar Industry Market Report-Development Trends, Threats, Opportunities and Competitive Landscape in 2020

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Tom McCormick | BioEnergy Lists: Biochar Mailing Lists

9 March, 2021
 

Tom McCormick of McCormick Environmental
http://mccormickbiologicalinc.com
Thatcher School Bioswale, Ojai, Ca
https://www.thacher.org

Minimizing the damage from flash floods and run-off from a horse pasture at Thatcher School.

More about the biochar used in the project, and the building of the wattles and the check dams:
Black Owl Biochar http://www.biocharsupreme.com

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Troubled ethanol plant near Mead has begun charring contaminated waste seed corn

9 March, 2021
 

A few clouds. Low 22F. Winds light and variable..

A few clouds. Low 22F. Winds light and variable.

The AltEn ethanol plant near Mead, shown last month, is in the process of charring contaminated corn byproduct to fulfill an edict by state environmental officials.

The AltEn ethanol plant near Mead, shown last month, is in the process of charring contaminated corn byproduct to fulfill an edict by state environmental officials.

A troubled ethanol plant near Mead that has been sued by the state for possible pollution has started “charring” thousands of tons of distilled seed corn in hopes of eliminating the hazardous chemicals the corn contains.

The Nebraska Department of Environment and Energy said it will be sampling the charred corn to determine whether the charring process has destroyed the harmful chemicals.

The AltEn ethanol plant, unlike other ethanol plants, had used leftover seed corn, which is coated in pesticides, in producing ethanol. The process intensified the chemical content, rendering the distilled corn unfit for feeding to livestock and unfit for land application.

A 2019 test by the Nebraska Department of Agriculture found that if the distilled corn were used as a soil enhancer, the level of one chemical would be 85 times higher than the maximum annual field load allowed by the manufacturer.

The department banned AltEn from applying the corn byproduct on land and ordered it to either dispose of it at a landfill or incinerate it by March 1.

A lawsuit filed by the Nebraska Attorney General’s Office, however, said that the company had not taken action to dispose of the corn. The March 1 lawsuit said that at least 84,000 tons of distilled corn, in three piles covering 30 acres, were piled at the AltEn plant site.

State officials, in a Friday news release, said nearby residents may notice steam coming from the “biochar” unit, which is owned by GreenCycle Solutions and being operated by AltEn. A biochar unit typically chars biomass, with the resulting material typically intended for use as a soil amendment, the NDEE said.

The department said the emission testing that it ordered of AltEn and GreenCycle Solutions on the biochar unit showed, as of July 2020, that it did not detect pesticides and showed emissions tested below the criteria for other air pollutants.

The results of the emissions testing show trace amounts of clothianidin and thiamethoxam, neonicotinoid pesticides commonly used in seed treatments, however.

Results from tests on the charred corn will be made available on NDEE’s public records portal.

With below-zero wind chills in the air, a squirrel leaps from one snow bank to another on Tuesday at Holmes Lake Park.

Lincoln Northeast’s Connor Renard (center) lands on the back of Millard South’s Brock Murtaugh as they battled for a rebound in the first half Saturday at Lincoln Northeast.

Lincoln Northeast’s Porter Bazil (33) blocks a shot from Millard South’s Lance Rucker in the first half Saturday at Lincoln Northeast.

Lincoln Pius X’s Charlie Hoiberg (12) blocks Lincoln Southeast’s Sam Haire’s layup as teammate Sam Hoiberg (2) and Derek Branch (3) look on in the first half Wednesday at Southeast High School.

BIRDS OF A FEATHER

A bluejay watches as a competitor for food comes in for a landing on a hanging peanut wreath bird feeder Wednesday at Holmes Lake Park. After 10 days of frigid weather — including a period of below-zero high temperatures — the weather is forecast to be milder through the end of the month.

John Matczyszyn (center) scores a goal between brothers Alex (left) and Thomas on Wednesday on the north shore of Holmes Lake. The brothers were joined by their father Alexander (not shown). After 10 days of frigid weather — including a period of below-zero high temperatures — the area is forecasted to receive a more reasonable climate heading into the next week.

A squirrel raids a hanging peanut wreath bird feeder for a peanut on Wednesday, Feb. 17, 2021, on the south shore on Holmes Lake Park. After 10 days of frigid weather – including a period of below-zero high temperatures – the area is forecasted to receive a more reasonable climate heading into the next week and a half.

A pair of ice fishermen pull a sled with their gear out on the snow and ice-covered surface of Holmes Lake Park on Wednesday, Feb. 17, 2021. After 10 days of frigid weather – including a period of below-zero high temperatures – the area is forecasted to receive a more reasonable climate heading into the next week and a half.

Nebraska’s Lexi Sun celebrates a kill by teammate Lauren Stivrins (not shown) to tie the score against Minnesota at 21-21 in the fourth set Friday at the Devaney Sports Center.

Nebraska’s Madi Kubik (10) dives in vain for an ace serve by Minnesota’s Adanna Rollins in the fourth set as teammate Kayla Caffey (top) looks on Friday at the Devaney Sports Center.

LINCOLN, NEB. – 02/19/2021 – Nebraska’s Riley Zuhn (16) attempts a kill against Minnesota in the third set on Friday, Feb. 19, 2021, at the Devaney Sports Center. FRANCIS GARDLER, Journal Star

Bill Eickmeier clears snow from his driveway early in the morning on Sunday, February 21, 2021. The city received another helping of snow -2 inches, to be exact, according to the National Weather Service. KENNETH FERRIERA, Journal Star.

Corn Coast Brewing co-owners Dan Walkermeyer (left) and Will Walter stand inside the future site of their first taproom and brewing location in Southwest Lincoln at 1433 Dahlberg Drive on Friday, February 19, 2021. KENNETH FERRIERA, Journal Star.

Lincoln East state wrestling qualifiers Brandon Bausert (top) and Keith Smith spar as part of a warmup during wrestling practice at Lincoln East High School on Monday, February 15, 2021. KENNETH FERRIERA, Journal Star.

Jutta Graham (left) and Tom Wagoner practice the basics of dancing the Rumba during a day of dance lessons on Sunday, February 14, 2021, at The DelRay Ballroom. The Rumba is regarded as not just a mere dance with steps to follow. Many regard the rumba as the dance of love and passion. KENNETH FERRIERA, Journal Star.

Florist Kurtis Bomar picks out roses for a Valentines Day bouquet on Saturday, February 13, 2021, at Stem Gallery. Not even sub-zero temperatures and a pandemic can stem the curve of flower sales for Valentines day. As the orders continued to roll in, delivery drivers and florist have taken precautions to fight against the cold. KENNETH FERRIERA, Journal Star.

A frigid squirrel braves the unwelcoming icy cold to forage for food at Holmes Lake Park on Friday, February 12, 2021. With the days high just barely reaching 1 degree Fahrenheit without wind chill. It was rare to see signs of life that were not bolting for warmth. Anyone spotted outside faced bone chilling winds and snow flurries. Forecast for western Nebraska predicted similar weather continuing into the following days. KENNETH FERRIERA, Journal Star.

Pius X’s Dontae Thomas celebrates with teammates after pinning Elkhorn South’s Henry Thomsen in the 182lb championship match during the A-4 district wrestling meet on Saturday, February 13, 2021, at Omaha Central High School. KENNETH FERRIERA, Journal Star.

David City’s Dylan Vodicka (right) collapses into the arms of wrestling coach Tahner Thiem after defeating Ord’s Kelen Meyer in the Class C 182 pound state championship match on February 20, 2021, at CHI Health Center. It was an emotional day for Vodicka, who won his state title without his father, Jim, who passed away in December. “I know he’s watching,” Vodicka said. “He’d be so proud.” Vodicka capped off an undefeated 54-0 campaign that included breaking the school career wins record with 184. KENNETH FERRIERA, Journal Star

Scottsbluff’s Paul Garcia celebrates after defeating  Gering’s Paul Ruff in the Class B 126 pound state championship match on February 20, 2021, at CHI Health Center. Garcia became entered into the history books as one of Nebraska’s few 4-time state championship holders. KENNETH FERRIERA, Journal Star

Crete celebrates after defeating Waverly 40-31, to win the B-3 district final on Saturday, February 20, 2021, at Crete High School. KENNETH FERRIERA, Journal Star.

Nebraska takes the court to celebrate their three set sweep over Minnesota on Sunday, February 21, 2021, at the Devany Sports Center. KENNETH FERRIERA, Journal Star.

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World Biochar Fuel Market Research Report 2026 (covering USA, Europe, China, Japan, India …

9 March, 2021
 

By ReportMines.com

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Readworks developing possible solutions and biochar answer key

9 March, 2021
 

The project helps incarcerated parents develop the literacy of their children through enhancing their own literacy-building and parenting abilities. Parents learn new ideas in child development and family literacy — such as reading to children, storytelling, expressive arts and crafts, and put them into practice during special family visits.

explanations for the correct answers at the end of the practice test even for items you answered correctly. Section 1 – Items 1 and 2 consist of a short statement followed by four possible titles, labeled a, b, c, and d. Select the title which most closely describes the content of the statement. Reading Comprehension

A key tactic in this exercise is to look for clues around each gap. The word (or words) before or after the gap will often be part of a set phrase and will help you decide which of the choice of 4 words is the correct one.

3 Unit tests answer key. The point value of each section is indicated on the test itself. If there is more than one possible correct answer Answer key for skills tests. Each test consists of two pages; the first page is a listening test and the second page is a reading and writing test.

Feb 01, 2007 · Evaluation requires an individual to make a judgment about something. We are asked to judge the value of an idea, a candidate, a work of art, or a solution to a problem. When students are engaged in decision-making and problem-solving, they should be thinking at this level. Evaluation questions do not have single right answers. Answer Sheet. By Valerie Strauss. Answer Sheet; Analysis; Share on Facebook. Share on Twitter. Share on LinkedIn. No, covid-19 vaccines didn’t kill any trial participants — and more parsing of …

Epic reading level chart!иPReluctant students can be motivated to practice math number problems to build computational fluency when given worksheets that include an answer key (number problems with correct answers) displayed at the top of the page. In this version of an ‘errorless learning’ approach, the student is directed to complete math facts as quickly as possible. Readworks Org Answer Key Free PDF ebook Download: Readworks Presidents THE SOLUTION TO READING CGMPREHENSlON. Answer the following questions based on the sentence below. This PDF book contain answer key for readworks information. To download free readworks…


Integrated hybrid architecture of metal and biochar for high performance asymmetric …

9 March, 2021
 


(11233791) Instead of releasing it into the air, Taunton plans to convert sludge gases … – FARK.com

9 March, 2021
 

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Enhanced ammonium removal on biochar from a new forestry waste by ultrasonic activation …

9 March, 2021
 

Activation mechanisms include cavitation corrosion and micro-acoustic flows.

Ultrasonic activation significantly enhance adsorption efficiency about 5 times.

Ultrasonic activation can clean the ash of biochar and make pore to increase SBET.

The composite adsorption mechanisms were dominated by physical adsorption.

The cost of preparing 1 kg ACB was about 0.42 US dollar and no secondary pollution.

Activation mechanisms include cavitation corrosion and micro-acoustic flows.

Ultrasonic activation significantly enhance adsorption efficiency about 5 times.

Ultrasonic activation can clean the ash of biochar and make pore to increase SBET.

The composite adsorption mechanisms were dominated by physical adsorption.

The cost of preparing 1 kg ACB was about 0.42 US dollar and no secondary pollution.

The adsorption treatment of ammonium-containing wastewater has attracted significant global attention. Most enhanced adsorption methods employ chemical modification, and there are few reports on physical activation. We present a physical activation to explore whether physical ultrasound may enhance the adsorption performance and comprehensive utilisation of a new forestry waste, Caragana korshinskii was used as a feedstock to prepare activated biochar (ACB) by controlling the pyrolysis temperatures and ultrasound parameters. The optimal parameters were determined via batch adsorption of NH4+, and the adsorption characteristics were assessed by 8 kinds of models and influence experiments. Moreover, the physicochemical properties of ACB during the pyrolysis process were investigated, and the ultrasonic activation and adsorption mechanisms were discussed using multiple characterisation techniques. Additionally, the cost analysis, the safety of the ultrasonic process and disposal method also were evaluated. The results showed that the ultrasonic activation significantly enhanced the NH4+ adsorption efficiency of biochar by approximately 5 times. ACB exhibited the best performance at 500 °C with an ultrasonic activation time of 480 min, frequency of 45 kHz, and power of 700 W. The ultrasonic activation reduced the biochar ash and induced pore formation, which increased the specific surface area through cavitation corrosion and micro-acoustic flow mechanism. The NH4+ adsorption mechanisms comprised physicochemical processes, of which physical adsorption was dominant. The preparation cost of 1 kg ACB was about 0.42 US dollar, and no secondary pollution occurred in the activation process. The findings prove that ultrasonic technology is efficient and convenient for enhancing biochar adsorption performance, and thus is suitable for industrial applications and promotion.


中文PubMed生物医学文献数据库

9 March, 2021
 

While pyrolysis of livestock manures generates nutrient-rich biochars with potential agronomic us…

Activated carbons are a byproduct from pyrolysis and have value as a purifying agent. The effecti…

Biochar has been heralded as an amendment to revitalize degraded soils, improve soil carbon seque…

Although nutrient-rich manure biochars are expected to be an effective heavy metal stabilizer in …

Sorption and desorption are two important processes that influence the amount of pesticides retai…

Qualitative identification of sorbed volatile organic compounds (VOCs) on biochar was conducted b…


Biochar Fertilizer Market Key Trends, Challenges and Growth Forecasts 2020-2027: Adsorb …

9 March, 2021
 

The Biochar Fertilizer Market sample report includes an exclusive analysis of COVID-19 pandemic on the market space under scrutiny. The sample represents the format of the overall study which is designed to provide clarity on the structure of the report and some data points demonstrated in an attempt to provide insights into the study quality.

Furthermore, the Biochar Fertilizer Market full research study is designed on account of the fact that each segment is individually assessed and then collated to form the whole market, the study can be tailor-made to fit your exact requirements.

Get Sample Copy of this Report @ https://www.theinsightpartners.com/sample/TIPRE00011244/

Biochar Fertilizer Market report also provide a thorough understanding of the cutting-edge competitive analysis of the emerging market trends along with the drivers, restraints, challenges, and opportunities in the Biochar Fertilizer Market to offer worthwhile insights and current scenario for making right decision. The report covers the prominent players in the market with detailed SWOT analysis, financial overview, and key developments of the products/services from the past three years. Moreover, the report also offers a 360º outlook of the market through the competitive landscape of the global industry player and helps the companies to garner Biochar Fertilizer Market revenue by understanding the strategic growth approaches.

Leading Biochar Fertilizer Market Players: Adsorb, Anulekh, ArSta Eco Pvt Ltd, Biochar Farms, Biogrow Limited, Carbon Fertilizer, Global Harvest Organics LLC, GreenBack, Kingeta Group Co., Ltd.

Biochars are defined as solid, carbon-rich materials which are added in soil to improve soil charaterstics and agronomic performance. It is produced with the help of pyrolysis by using several biomasses. According to various studies, the use of biochar as a fertilizer to boost the crop growth and yield. Biochar-based compound fertilizers (BCF) and amendments also helps to alter soil properties in the form of pH, nutrients, organic matter, structure etc.

Biochar Fertilizer Market – Global Analysis to 2027 is an exclusive and in-depth study which provides a comprehensive view of the market includes the current trend and future amplitude of the market with respect to the products/services. The report provides an overview of the Biochar Fertilizer Market with the detailed segmentation by type, application, and region through in-depth traction analysis of the overall virtual reality industry. This report provides qualified research on the market to evaluate the key players by calibrating all the relevant products/services to understand the positioning of the major players in Biochar Fertilizer Market.

The report provides a detailed overview of the industry including both qualitative and quantitative information. It provides an overview and forecast of the global Biochar Fertilizer Market based on various segments. It also provides market size and forecast estimates from the year 2018 to 2027 with respect to five major regions. The Biochar Fertilizer Market by each region is later sub-segmented by respective countries and segments. The report covers the analysis and forecast of 18 countries globally along with the current trend and opportunities prevailing in the region.

Promising Regions & Countries Mentioned in The Biochar Fertilizer Market Report:

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Biochar Fertilizer Market Insights and Global Outlook During 2021 to 2028

9 March, 2021
 

“In terms of current and future trends, global demand for Biochar Fertilizer  study offers driving factors of the market. In the analysis, different market & industry variables were studied/ researched and summarized. The report provides a point-wise overview of market share, market size, and regional landscape, along with estimates, diagrams, and charts that explain the various noteworthy parameters of the industry landscape. The size of the market, drivers, demand/restriction challenges, opportunities, forecast analysis, geographical analysis, and numerous other factors that demonstrate the functioning of the entire demand are several in-depth variables explained in the study.

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Impact of COVID-19
Our analysts monitoring the worldwide situation explain that the market will create remunerative prospects for producers after the COVID-19 crisis. The purpose of the analysis is to provide a further illustration of the latest situation, the economic downturn, and the impact on the overall industry of COVID-19.

Biochar Fertilizer 

Overview of Market Study:
This research offers a complete assessment of the industry as it provides market data, estimates, important findings, and historical data supported and checked statistically by the industry. It also includes forecasts predicted by using an appropriate set of methodologies to provide accurate values. Market research produces knowledge, including product types, geographies, and applications, according to categories determined by market segmentation.

Insights for Business:
In this Biochar Fertilizer market report, a detailed view of market opportunities by end user segments, product segments, distribution channels, key countries, and import/export dynamics is presented. It describes the market size and forecast, growth drivers, emerging trends, market opportunities and investment risks in various segments of the Biochar Fertilizer market. It offers an in-depth view of the market dynamics of the market for Biochar Fertilizer in terms of both value and volume.

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Market Segmentation: By Type (Organic Fertilizer, Inorganic Fertilizer, Compound Fertilizer), By Application (Cereals, Oil Crops, Fruits and Vegetables, Others), 

The study classified the global Biochar Fertilizer industry market into segments such as shape, application, and geographic product. Every segment is calculated based on share and growth rate. To improve accuracy and make data collection easier, segmentation is provided. Assessing and analyzing the demand becomes easier with this stage of segmentation. At the same time, there is an emphasis on what kind of consumers are becoming customers in this sector. Each type provides data with respect to company esteem during the conjecture time period. Similarly, over the projected duration from 2020 to 2027, the implementation area provides volume and consumption information.

Regional Evaluation:
According to the major geographical regions such as North America, Europe, Asia Pacific, South America, and the Middle East and Africa the Global Biochar Fertilizer market report categorized the information and data.

Competitive Growth in Markets:
These market players enjoyed broad sector coverage, outstanding operational power, and strong financial resources. Manufacturers concentrate on product creativity, brand development and the introduction of new products to cater to the preferences of consumers. Some of them will have a crucial future, while others will show weak progress during the forecast period. Biogrow Limited, Biochar Farms, Anulekh, GreenBack, Carbon Fertilizer, Global Harvest Organics are the major players listed in the study.

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The Market Highlights
The Biochar Fertilizer Market Research Report helps to identify both the most dominant growth drivers and research barriers. In this context, it provides readers with knowledge on many aspects of the global market, such as current developments, geographical analysis, segments, market statistics, challenges, and key market players. The assessment involves a forecast, a summary of the competitive structure, market shares, and market dynamics of players, market demands, market conditions, market challenges, and analysis of goods. The market drivers and constraints were analyzed in order to understand their effects over the forecast period. The core prospects for growth are further described in this report, while also outlining the key challenges and potential threats.

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Biochar and greenhouse gas removals: what policy framework for the EU?

9 March, 2021
 

The biochar system presents itself as an exceptional negative emis­sions technology (NET) in that it can readily provide multiple public goods at relatively low cost as well as multiple private goods related to the use of biochar as a soil amendment and other possible uses. Appropriate financial reward of greenhouse gas (GHG) removals, as well as of soil carbon restoration, would likely propel the diffu­sion of the biochar system. But which policy instruments should be used to reward GHG removals produced by the biochar system and other NETs? Arguably, setting specific targets for emission reductions and for removals, rather than aggregate targets for net emissions, would help address this ques­tion as well as avert the risk of delaying either emission reductions or removals.

In this online event hosted by Leonardo Meeus, we will discuss how the EU should incentivise GHG removals with a  view to its long-term climate mitigation targets. The biochar system as a NET provides a useful case for reflecting on this question.

 

 

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Biochar Industry Market All Set To Witness Massive Growth During Forecast 2021-2027- Liaoning …

9 March, 2021
 

Biochar is a charcoal that acts as a soil conditioner to help plants grow. It can be used in agricultural applications as well as in carbon collection and storage, unlike traditional charcoal, which is commonly used in fuels. Biochar, like ordinary charcoal, is a product of thermal cracking of biomass energy raw materials, and its main component is carbon molecules.

It is our aim to provide our readers with report for Biochar Industry Market, which examines the industry during the period 2020 – 2026. One goal is to present deeper insight into this line of business in this document. The first part of the report focuses on providing the industry definition for the product or service under focus in the Biochar Industry Market report. Next, the document will study the factors responsible for hindering and enhancing growth in the industry. After covering various areas of interest in the industry, the report aims to provide how the Biochar Industry Market will grow during the forecast period.

The major vendors covered: Liaoning Jinhefu Group, Diacarbon Energy, Hubei Jinri Ecology-Energy, Seek Bio-Technology (Shanghai), Biochar Now, BioChar Products, Swiss Biochar GmbH, Carbon Terra, BlackCarbon, Cool Planet, Vega Biofuels, Agri-Tech Producers, ElementC6, Nanjing Qinfeng Crop-straw Technology, The Biochar Company, Kina, Carbon Gold, Pacific Biochar. and more…

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The Biochar Industry Market report between the years 2020 – 2026 will highlight the current value of the industry. At the same time, there is also an estimate of how much this line of business will be worth at the end of the forecast period. As it is our goal to maintain high levels of accuracy at all times, we will take a look at the CAGR of the Biochar Industry Market. We make sure that all the information available in this report has excellent levels of readability. One way we achieve this target is by Biochar Industry Market segmentation. Going through the report for 2020 – 2026 will bring our readers up-to-date regarding this industry.

While examining the information from this document, one thing becomes clear, the elements which contribute to increase in demand for the product or service. At the same time, there will be a focus on what drives the popularity of these types of products or services. This report is for those who want to learn about Biochar Industry Market, along with its forecast for 2020 – 2026. Information regarding market revenue, competitive partners, and key players will also be available.

Segmentation                                 

As discussed earlier, there is segmentation in the Biochar Industry Market report, to improve the accuracy and make it easier to collect data. The categories which are the dividing factors in the industry are distribution channels, application, and product or service type. With this level of segmentation, it becomes easier to analyze and understand the Biochar Industry Market. At the same time, there is emphasis on which type of consumers become the customers in this industry. When it comes to distribution channels, the Biochar Industry Market report looks at the different techniques of circulation of the product or service.

Regional Overview                 

In this part of the Biochar Industry Market report, we will be taking a look at the geographical areas and the role they play in contributing to the growth of this line of business. The areas of interest in this document are as follows – Middle East and Africa, South and North America, Europe, and Asia Pacific. From the Biochar Industry Market report, it becomes clear which region is the largest contributor.

Latest Industry News                           

From this Biochar Industry Market report, the reader will also get to learn about the latest developments in the industry. The reason is that these products or services have the potential to disrupt this line of business. If there is information about company acquisitions or mergers, this information will also be available in this portion of the Biochar Industry Market report.

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Granular Biochar Market Analysis by Recent Developments and Overview Outlook – 2027 …

9 March, 2021
 

Latest Industry Research Report On global Granular Biochar Market Research Report 2021 in-depth analysis of the market state and also the competitive landscape globally.

The Granular Biochar market report provides information regarding market size, share, trends, growth, cost structure, global market competition landscape, market drivers, challenges and opportunity, capacity, revenue, and forecast 2027. This report also includes the overall and comprehensive study of the market with all its aspects influencing the growth of the market. This report is an exhaustive quantitative analysis of the Granular Biochar market and provides data for making strategies to increase market growth and effectiveness. The report covers the post-COVID-19 impact on various regions and major countries and on the future development of the industry is pointed out.

The global Granular Biochar Market is expected to register a CAGR of 3.5% during the forecast period 2021 – 2027.

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Top Companies in the Global Granular Biochar Market: Diacarbon Energy, Agri-Tech Producers, Biochar Now, Carbon Gold, Kina, The Biochar Company, Swiss Biochar GmbH, ElementC6, BioChar Products, BlackCarbon, Cool Planet, Carbon Terra, and others.

The key players have been focusing on strategies such as acquisitions, new product developments & launches, agreements, and investments that have helped them to expand their businesses in untapped and potential markets. The diversified product portfolio and multiple uses are factors responsible for strengthening the position of these companies in the global Granular Biochar market.

Global Granular Biochar Market Split by Product Type and Applications:

This report segments the market based on Types are:

Based on Application, the market is segmented into:

Regional Analysis for Granular Biochar Market:

North America, Europe, China, Japan, Southeast Asia, India
North America (USA, Canada, and Mexico)
Europe (Germany, France, UK, Russia, and Italy)
Asia-Pacific (China, Japan, Korea, India, and Southeast Asia)

Key Highlights of Granular Biochar Market:

– The detailed description of the company’s operations and business divisions.

– Granular Biochar market recent innovations and major events.

– Analyst’s summarization of the company’s business strategy.

– The detailed analysis of the company’s strengths, weaknesses, opportunities, and threats.

– The Granular Biochar progression of key events associated with the company.

– The list of major products, services, and brands of the company.

– The list of key competitors to the company.

– The list and contact details of key locations and subsidiaries of the company.

– In-depth understanding of Granular Biochar market-particular drivers, constraints, and major micro markets.

– The latest financial ratios derived from the annual financial statements published by the company with 5 years history.

Browse in-depth and report summary TOC on “Granular Biochar Market”

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Biochar Market – Breakout Live

10 March, 2021
 

Global Biochar Market: Snapshot The global biochar market is observing a significantly high rise in its valuation, thanks to the increasing preference for organic food among consumers across the world. The ability…

​Global Biochar Market Size Analysis – Competition Bench marking, Industry Trends, Market Share & Forecast 2020-2026 The Report firstly introduced the Biochar basics: definitions, classifications, applications and market overview; product…

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Biochar: Overview, Properties and Uses – Byjus

10 March, 2021
 

Biochar is a type of charcoal made by thermal decomposition of biomass, but without the use of oxygen. It is used as a soil conditioner for both carbon sequestration and soil health benefits.

Research is being carried out on how biochar can be used to mitigate the effects of climate change.

Details of biochar will be useful in the Environment and Ecology segment of the IAS Exam

The word ‘biochar’ is derived from the Greek word ‘bios’ meaning life and ‘char’ short for charcoal.It is basically charcoal, but used in certain applications.

Biochar is a high-carbon, fine-grained residue produced through direct thermal decomposition of biomass without oxygen being used in the process. It produces a mixture of solids, liquid and gas products. The yields gained depend on conditions such as temperature and heating rate. These parameters can be used to produce energy as well.

The ideal temperature of biochar creation is at 400 – 500 °C while temperature above 700 °C favors the yield of liquid and gas fuel components.

For more UPSC notes on Environment and Ecology, visit the linked article.

The following are the use for Biochar

1.Carbon Sink:  When biomass is burnt or naturally decomposed, large amounts of carbon dioxide and methane is released into the Earth’s atmosphere. Biochar also similarly releases the same elements into the atmosphere but the carbon content is stable by comparisonAs such, biochar provides for a suitable storage of carbon in the ground, potentially reducing atmospheric greenhouse gases (ghg) while at the same time increasing soil fertility, and improved agricultural productivity.

2. Soil Amendment: The porous nature of biochar is ideal for soil enrichment as it retains both water and water-soluble nutrients. Biochar is recognized for its offering of a number of soil health benefits. Thus, biochar is capable of improving quality of water, reduce nutrient depletion, reduce soil acidity and reduce irrigation and fertilizer requirements

3. Water Retention: Biochar is hygroscopic, as in able to absorb and hold water from the surrounding environment. This makes it ideal as a soil material where water shortages are common. Nutrients crucial for a plants benefits such as phosphate and nitrogen are retained, making the plants healthie and requiring far less fertilizer

Benefits of biochar are as follows:

For more information about upcoming Government Exams, visit the linked article. More exam-related preparation materials will be found through the links given below

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Last Updated: 09-03-2021


Integrated biochar research: A roadmap | Treesearch – USDA Forest Service

10 March, 2021
 

United States Department of Agriculture

Integrated biochar research: A roadmap


Design of controlled temperature test in biochar production furnace automation – IOPscience

10 March, 2021
 

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This study aims to test the temperature sensor that will be used in the biochar production furnace. Temperature testing is carried out to determine the ability of the sensor to respond to temperature changes that will be applied to the furnace. The sensors used in this system are the K-type thermocouple and the MAX6675 module. Testing is done by forming a control system. The system will be installed in the furnace by providing heating with fire in the furnace. The result of the maximum temperature was 574.25 °C at 575 seconds of heating for 1110 seconds. The test of corelation between the sensor output voltage to temperature when the temperature is raised from the beginning to the maximum, the sensor sensitivity is obtained at 5.1762 mV / °C and the slope of the graph is close to 1. Testing the relationship of the sensor output voltage to temperature when the temperature is lowered from the maximum point, the sensor sensitivity is obtained at 4.878 mV / °C and an offset voltage of 25 mV. The voltage-to-time correlation of the two tests is close to the value of 1, which means that the sensor linearity is very good so that it can be used as a temperature measurement tool.

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Biochar effects on the abundance, activity and diversity of the soil biota | Taylor & Francis Group

10 March, 2021
 

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Biochar Market Size in United States – NeighborWebSJ

10 March, 2021
 

This report provides a strategic analysis of the Global Biochar market and the growth estimates for the forecast period. This report also provides market sizing and forecasts for the Global Biochar Market. The report is a professional and in-depth study on the existing state. this report focuses on the major drivers, restraints, opportunities, and threats […]


Biochar Market Growth Analysis, Industry Size, Outlook, Current Trends by 2028

10 March, 2021
 

Further, the Biochar Market report covers strategic assessment of development policies and plans, business processes and revenue structures, marketing strategies followed by leading players, distributor’s analysis, marketing channels, potential buyers, and Biochar’s development history. This report also states import/export, supply, and consumption figures as well as cost, price, revenue, and gross margin by regions.

Request Free Sample Report of Biochar Market Report @ https://www.globalmarketvision.com/sample_request/4584

Note – In order to provide more accurate market forecast, all our reports will be updated before delivery by considering the impact of COVID-19.

Key Players

The report includes a dedicated section highlighting the key manufacturers in the Biochar Industry that dominate majority of the market. These manufacturers not only include large conglomerates but also small to medium scale enterprises which have shown remarkable growth in the market share in the past and are also predicted to continue to show rapid growth during the forecast period. For each of the manufacturers listed in the report, it also includes descriptions of their company profiles, manufacturing sites, product pricing, sales revenues, profit margins etc.

The major players in global Biochar market include: Protean Electric, Elaphe, e-Traction, ZIEHL-ABEGG, .

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Drivers and Risks

The report pays special attention to factors which contribute to the Biochar Market growth also known as market drivers. Any changes in these market dynamics directly affect the market growth hence the report provides a future insight into important factors that should be monitored and which could be leveraged by companies, vendors, distributors and all stakeholders alike to their advantage. The report also provides an insight into the challenges faced by the market and the strategies used by existing players to overcome or avoid these risks.

Regional Description

One of the key advantages of the report is the importance given to the regional description of the Biochar Market. The report provides details on the market segmentation which also includes a section which covers the regions that the market spans across globally. Moreover, this segmentation is further drilled down into a more detailed country-wise analysis of the regions covered by the market. The regional description calls out countries and regions that have emerged as global leaders of the market and also provides an insight into the trends and factors owing to which the region leads the market share and also predicts the performance of regions in the years to come. The report also sheds some light on the regions predicted to show the fastest market growth in the future as well as the ones that have shown significant market growth in the past. It also considers factors like consumption rates, production rates, population, presence of key manufacturers in regions and provides a comparative analysis for better understanding of the Global Biochar Market.

Method of Research

The report utilizes tools like Porter’s five force model and SWOT Analysis to efficiently identify the Biochar Market performance by weighing in micro and macro-economic factors thereby making it a vital tool in the understanding of the market. It enables manufacturers to identify their strengths and weaknesses and improvise on their business strategies in order to achieve maximum profits globally.

The key questions answered in this report:

Table of Content:

Chapter 1: Introduction, market driving force product Objective of Study and Research Scope Biochar market

Chapter 2: Exclusive Summary – the basic information of Biochar Market.

Chapter 3: Displaying the Market Dynamics- Drivers, Trends and Challenges of Float-Zone Silicon

Chapter 4: Presenting Biochar Market Factor Analysis Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis.

Chapter 5: Displaying the by Type, End User and Region 2013-2018

Chapter 6: Evaluating the leading manufacturers of Biochar market which consists of its Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile

Chapter 7: To evaluate the market by segments, by countries and by manufacturers with revenue share and sales by key countries in these various regions.

Chapter 8 & 9: Displaying the Appendix, Methodology and Data Source

Conclusion: At the end of Biochar Market report, all the findings and estimation are given. It also includes major drivers, and opportunities along with regional analysis. Segment analysis is also providing in terms of type and application both.

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Biochar Opportunities in the Southwest: Extension Workshop – Virtual | FRAMES

10 March, 2021
 

Join in this multi-day learning opportunity! An interactive virtual workshop about ecosystem services and entrepreneurial opportunities using forest biochar in the Four Corner States. Click here for more information and click here to register.

*Sponsored by the University of Arizona Cooperative Extension, Utah State University Extension, New Mexico State University Extension, Colorado State University Extension, USBI, Colorado State Forest Service, USDA Forest Service.

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Global Biochar Market Poised to Garner Maximum Revenues by (2020 – 2027)

10 March, 2021
 

Forecast Analysis Of Global Biochar Market 2021-2027 – By Type (Gasified Rice Hull Biochar (GRHB), Sawdust Biochar (SDB), Bark and Wood Biochar (BWB)), Application (Industrial Fuel, Soil Amendment, Carbon Black, Barbecuing, Decontamination, Livestock Production, Others), and Region

The Global Biochar Market Research Report describes the demand, gross profit, sales, and market share of the Biochar industry. The growth drivers, trends, and developments in the Biochar industry are presented in this report. The Biochar industry report presents key player’s profiles with an in-depth analysis of market size, share, production, revenue, price structure, and gross profit, export, and import analysis from 2015 to 2019. It also details the Biochar markets offered and the geographical presence of these top players.

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The report begins with an overview of the Biochar market, scope, market size estimates, and growth rates by Biochar product type. Also, the top applications in the Biochar market are studied in this report. The next segment analyzes capacity, production, price structure, and market trends from 2015 to 2027. Top Biochar industry trends and market risk, market drivers are studied in this study.

The SWOT analysis helps business leaders, industry players to find out their company’s internal strengths and weaknesses, as well as external forces that could threaten your business. Also report include the top impacting factors analysis(PESTEL Analysis) include the key factors such as political factors, economic factors, social factors, technological factors, environmental factors, legal factors. Also covers the COVID-19 impact assessment of the overall impact on the Biochar industry.

Key Player Analysis:
Full Circle Biochar
Vega Biofuels Inc.
Gree Charcoal International
The Biochar Company
Avello Bioenergy
Biochar Supreme
Cool Planet Energy Systems
Pacific Biochar
Agri-Tech Producers LLC
Tolero Energy
Biochar Products
Diacarbon Energy Inc

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Market Analysis by Geographies:

North America (Covered in Chapter 8)
United States
Canada
Mexico
Europe (Covered in Chapter 9)
Germany
UK
France
Italy
Spain
Others
Asia-Pacific (Covered in Chapter 10)
China
Japan
India
South Korea
Southeast Asia
Others
Middle East and Africa (Covered in Chapter 11)
Saudi Arabia
UAE
South Africa
Others
South America (Covered in Chapter 12)
Brazil
Others

Market Segmented By Type: Analysis and Forecast:

Gasified Rice Hull Biochar (GRHB), Sawdust Biochar (SDB), Bark and Wood Biochar (BWB)

Market Segmented By Application: Analysis and Forecast:

Industrial Fuel, Soil Amendment, Carbon Black, Barbecuing, Decontamination, Livestock Production, Others

Download Free Sample (COVID-19 Impact Analysis)

The next segment provides an analysis of the Biochar market value chain and sales channels to provide information about upstream suppliers and downstream buyers. In this study, we analyze in detail Biochar market opportunities and challenges in the market and the factors that influence the growth of the market. The Biochar Market forecast Analysis describes growth rate, consumption, capacity, and expected revenue analysis till the end of 2027. Finally, we discuss data sources, research methods, and analysts’ views.

Global Biochar Industry Survey Reports Covers following Key Points:
• This reports explores quantitative analysis including market size, sales price, revenue, market share, and value of Biochar from 2015 to 2019 and 2020 to 2027
• Study Biochar market key players and analyze their geographic presence, competitive profile, and gross profit analysis.
• Regional and key player SWOT analysis leads to an analysis of growth factors and market risk.
• Analyze the scope of Biochar market across North America, Europe, Asia Pacific, the Middle East and Africa, and other top regions of the world.
• This report explores the top regions and countries with great growth potential.
• Presents future scope, and development status, and growth opportunities.
• Presents SWOT analysis, Biochar market drivers, threats, and risk assessments.
• A full assessment of pricing, stakeholders, manufacturers, dealers, traders, and distributors is carried out.
• The market outlook of Biochar value, consumption, production, quantity, regional analysis, etc. from 2019 to 2024
• Provides valuable data sources, research methods, analyst’s views, and suggestions.

View Full Report/Table of Contents/Ask for Customisation: https://www.globalmarketers.biz/report/energy/2015-2027-global-biochar-industry-market-research-report,-segment-by-player,-type,-application,-marketing-channel,-and-region/145372#table_of_contents


Biochar Market Opportunities | Industry Report by EarthSpring Biochar/Biochar Central, Energy …

10 March, 2021
 

Adroit Market Research recently publishes an all-inclusive report on the Global Biochar Market providing a complete overview of the key aspects of the market. Biochar market report makes a robust assessment regarding the current market situation and its scope, which are anticipated to impact significantly on the performance of the market during the forecast period, 2020-2027. This report includes an in-depth analysis about the COVID-19 situation and its possible impact on the market in the next few years. The report contains XX pages, which provides a precise and detailed explanation of key components and their market expansion scope in the mentioned period. The key insights about the potential size, volume, and dynamics of the market as mentioned in the report is a vital guideline that would help clients to make informed decision about their business investment plans and strategies in the market.

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As per the analysis, the global Biochar market was valued at USD XX million in 2019 and is projected to reach a value of USD XX million by the end of 2027, expanding at a CAGR of XX% during the forecast period.

The report covers a detailed study on key areas such as market size, scope, and growth opportunities of the global Biochar market by analyzing the market trend and data available for the period prior to 2019. From this analysis, the report draws several observations and deduces about the key factors that drive or restrain the market growth, which would have a wide impact on the development and expansion of the market during the forecast period. Moreover, it covers a range of opportunities and challenges prevailing in the market that will help clients to evaluate their investment strategies.

Few of the key players mentioned in this report:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

Customize Report and Inquiry for the Biochar Market Report @ https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=prbis

The global Biochar market report examine the major segments and sub-segmentations of the market that are classified as the product types, applications, and regions. In additional to the harsh economic impact of the COVID-19 outbreak, the report studies the dynamics of the market by analysis the key performance of each segments and the potential expansion scope of the segments in the coming years. Furthermore, the scope of the growth potential, revenue growth, product range, and pricing factors related to the global Biochar market in terms of applications are thoroughly assessed in the report in a view to entail a broader picture of the market.

Segmentation of the Biochar Market

Market by Types

by Technology (Pyrolysis, Gasification and Others)

Market by Application

by Application (Agriculture and Others)

The report, published by Adroit Market Research, is the most reliable information as the study consists of a concise graphical representations, tables, and figures which allow the users to easily understand the key market position of sectors or segment without going through a deep study of the report. The tables and figures represent the latest update information that provides a broad picture of several market developments of the products and services over the last few years.

The market report relies on a concrete research methodology focusing on both primary as well as secondary sources. The report is prepared by relying on primary source including interviews of the company executives & representatives and accessing official documents, websites, and press release of the private and public companies. Additionally, this report includes market analysis from several global experts and analysts who have in-depth knowledge about the market. To ensure a complete framework of the market, it also adopts several research tools such as statistical surveying for SWOT analysis, PESTLE analysis, predictive analysis, and real-time analytics.

The report mentions some key global players in the market and additional names of the players in the market can be included as per the clients’ request. Moreover, a customized or separate report can also be available according to the needs of clients. The report covers the recent development of players including merger & acquisition agreements, partnership or joint venture and latest products launches from the key manufacturers in the Biochar market. Please contact with our sales team, who will deliver reports that suits your necessities.

The report covers global aspect of the market, covering

1. North America
2. Latin America
3. Europe
4. Asia Pacific
5. Middle East and Africa

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The mechanism transformation of ramie biochar's cadmium adsorption by aging – ScienceDirect

10 March, 2021
 

Different Cd adsorption methods of biochar and age biochar are studied.

Transformation of cation exchange cause by aging have been examined.

Different functional groups complexation with Cd be considered.

Coprecipitation cannot be found in aged biochar be proved.

The weak of π-donor mechanism during aging process is investigated.

Different Cd adsorption methods of biochar and age biochar are studied.

Transformation of cation exchange cause by aging have been examined.

Different functional groups complexation with Cd be considered.

Coprecipitation cannot be found in aged biochar be proved.

The weak of π-donor mechanism during aging process is investigated.

Aging is inevitable when biochar uses for remediate Cadmium (Cd) pollution, but the variation of adsorption mechanism remains unclear. This study uses ramie residue to prepare fresh biochar, and adopt it with acidification and oxidation to simulate the aging process. The difference of physicochemical properties between fresh and aged biochar are studied through microstructure. Then, two kinds of biochar are making adsorption experiments in Cd solution for analyzing their adsorption mechanism. The results show that, both chemisorption and physisorption are exist, chemisorption and physisorption is the predominant way of fresh biochar and aged biochar respectively. Cation exchange is important but weaker in aged biochar than fresh biochar. Carboxyl plays a leading role in complexation of fresh biochar and hydroxy in aged biochar. Coprecipitation and cation-π mechanism impair apparently in aged biochar. This study indicates that aging change ramie biochar’s main adsorption mechanism and the primary chemisorption way.


Biochar in Temperate Agriculture – The Atrium – University of Guelph

10 March, 2021
 

Guelph, Ontario, N1G 2W1
Canada


Rice University's Shell-backed hub announces latest research grants

10 March, 2021
 

low carbon funding

Several clean energy research teams have been awarded grants from a Rice University hub that focuses on innovating zero-emissions technology.

The Carbon Hub has awarded seven seed grants to research teams working on solutions for clean energy. The selections represent the first from the hub, which was established in 2019 following a $10 million gift from Shell. The hub’s goal is to fundamentally change how the world uses hydrocarbons and to lead $100 million of science and engineering initiatives.

“Our starting point is utilizing methane and other light hydrocarbons to co-produce clean hydrogen and high-value materials that can outcompete and displace heavy CO2 emitters like metals, construction ceramics and fertilizers,” says Carbon Hub Director Matteo Pasquali in a news release.

The selected proposals, according to the release, are as follows:

who’s who

Guest column

HOUSTON INNOVATORS PODCAST EPISODE 74

Love Your Location

money moves

A Houston-based software-as-a-service company that is revolutionizing the contract process has closed a round of funding this week.

DocJuris, founded in 2018, raised $3.2 million in seed funding led by New York-based RTP Seed with additional support from Houston-based Seed Round Capital, California-based Watertower Ventures, Maryland-based Crossbeam, and Remote First Capital.

It’s the startup’s first round of venture funding and Henal Patel, CEO of DocJuris, says he was looking for funds as well as support from investors who had experience with software and could open doors to new clients for the legal software.

“Our platform is designed to empower legal, sales, and procurement teams and corporations to negotiate and close contracts with greater speed and precision,” Patel says. “The underlying mission is to solve the last-mile of contracting.”

The need for funding came at a time of growth, Patel says, as DocJuris was seeing more and more opportunities in light of the pandemic.

“As work has gone more remote, there’s a greater need for teams to be able to collaborate on their contracts — instead of sending Word documents over email,” he tells InnovationMap.

Within the contract optimization space, Patel says he sees a lot of opportunities for enhancing the experience for lawyers, business owners, contractors, and anyone who has to spend any amount of time on legal papers.

“One of our visions is to — in addition to providing the tactical tools we do to day — revisualize the way that people read contracts,” Patel says. “Our platform enables the ability to improve the lives of the people who have to stare at contracts all day.”

DocJuris is already hiring for a few positions across sales, customer service, and marketing, and Patel says he will continue to grow his remote team locally.

“We’ve been remote since before it was cool,” Patel says, adding that all but one of his employees is based in Houston. “But we’ve been locally concentrated in Houston. We’re planning on growing our team here in Houston, but keeping the team remote. We believe in Houston.”

who’s who

Guest column

HOUSTON INNOVATORS PODCAST EPISODE 74


Pyropower – WUR

10 March, 2021
 

Biochar is a carbon residue from the carbonization process of organic matter in anaerobic conditions. Biochar is a material whose myriad of applications have not yet reached their full potential. Currently, biochar’s applications are mostly in the agricultural sector by restoring soil quality. One of biochar’s most important applications is its ability to sequester CO2 for soil condition improvement on damaged croplands around the world.

Pyropower’s mission is to provide affordable pyrolysis technology and enable a biocharbased circular economy in the rural communities of Southeast Asia. We are looking into a large untapped market at in the bottom of the pyramid of the coffee growing industry. About 80% of the world’s coffee is produced by 25 million smallholder farmers, and Indonesia represents a big chunk of this supply. As the world’s fourth largest producer, 1.5 million Indonesian smallholder coffee farmers produce over 600 thousand tonnes of coffee per year.

There is a huge environmental and social problem at the smallholder farm level. Currently, 60% of coffee cherry is wasted, amounting to an emission of at least 200,000 tons CO2eq per year in addition to water and other pollutions. Furthermore, the productivity of farmers in Indonesia is relatively low, with the causes mainly from poor agricultural and postharvest processes such as lack of coffee beans drying. The latter is further exacerbated by the effect of climate change that causes higher and irregular rainfall patterns, which made it very difficult for farmers to dry their coffee beans. This in turn decreases their final yield and therefore reduces their potential income. As a result, farmers could suffer months of food shortages because of their dependency on low incomes.

Pyropower has three key strategies:

Altogether, these will create a self-sustaining biochar-based circular economy in rural Indonesia.

Pyropower’s value chain consists of 4 key processes:

Pyropower derives revenue from (1) product sales and (2) carbon credits from biochar application. Its main expenses include (1) product costs, (2) sales and marketing, and (3) training and education.

Want to know more about Pyropower? Visit their website:

To explore the potential of nature to improve the quality of life.

Wageningen University & Research on Social Media


Biochar Market Size 2021 | Opportunities, Demand and Forecast To 2027

10 March, 2021
 

Fort Collins, Colorado: The report claims to be a smart and thorough valuation tool as well as an excellent resource to help you secure a position in the Biochar Market. It includes Porter’s Five Forces Analysis and PESTLE to provide your company with critical insights and comparative data on the Biochar market. We have carried out an in-depth analysis of the provider landscape to give you a complete picture of the current and future competitive scenarios in the Biochar market. Our analysts use the latest primary and secondary research techniques and tools to produce comprehensive and accurate market research reports.

Global Biochar Market industry valued approximately USD 1.0 billion in 2016 is anticipated to grow with a healthy growth rate of more than 13.56% over the forecast period 2017-2025.

(Exclusive Offer: Flat 30% discount on this report)

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The Following Companies are Major Contributors to the Biochar Market Research Report:

The final report will add the analysis of the Impact of Covid-19 in this report Biochar Market

Biochar market reports provide key insights that help industry experts, product managers, CEOs, and executives of the company design their guidelines on various parameters such as expansion, acquisitions, and new product launches, as well as analyze and understand market trends.

Each segment of the Biochar market is comprehensively assessed in the research study. The segment analysis offered in the report identifies the key opportunities that the Biochar market offers through leading segments. The regional study of the Biochar Market included in the report helps readers gain a good understanding of how various geographic markets have evolved over the past few years and in the years to come. We have presented a detailed study of Critical Biochar Market Dynamics that includes Market Influence and Effect Factors, Drivers, Challenges, Restraints, Trends, and Prospects. The research study also includes other types of analysis such as qualitative and quantitative.

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Biochar Market Segmentation:

By Technology:

By Application:

Biochar Market: Competitive Rivalry

The chapter on company profiles looks at the different companies that operate in the Biochar market. It assesses the financial prospects of these companies, their research and development status, and their expansion strategies for the years to come. Analysts have also provided a detailed list of strategic initiatives taken by players in the Biochar market over the past few years in order to stay one step ahead of the competition.

Biochar Market: Regional Segments

The chapter on regional segmentation describes regional aspects of the Biochar market. This chapter explains the regulatory framework that is expected to affect the entire market. It sheds light on the political scenario of the market and anticipates its influence on the Biochar market.

The Middle East and Africa (GCC Countries and Egypt)
North America (the United States, Mexico, and Canada)
South America (Brazil etc.)
Europe (Turkey, Germany, Russia UK, Italy, France, etc.)
Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

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Report Highlights

• Comprehensive price analysis based on products, applications and regional segments

• In-depth assessment of the vendor landscape and key companies to understand the level of competition in the Biochar market

• In-depth knowledge of the regulatory and investment scenarios of the Biochar market

• Analysis of the market effect factors and their impact on the Biochar market forecast and prospects

• A roadmap of growth opportunities in the Biochar market with the identification of key factors

• Comprehensive analysis of the various trends in the Biochar market to identify market developments.

 

 

Table of Contents:

Report Overview: It includes six chapters, viz. research scope, major manufacturers covered, market segments by type, Biochar market segments by application, study objectives, and years considered.

Global Growth Trends: There are three chapters included in this section, i.e. industry trends, the growth rate of key producers, and production analysis.

Biochar Market Share by Manufacturer: Here, production, revenue, and price analysis by the manufacturer are included along with other chapters such as expansion plans and merger and acquisition, products offered by key manufacturers, and areas served and headquarters distribution.

Market Size by Type: It includes analysis of price, production value market share, and production market share by type.

Market Size by Application: This section includes Biochar market consumption analysis by application.

Profiles of Manufacturers: Here, leading players of the Biochar market are studied based on sales area, key products, gross margin, revenue, price, and production.

Biochar Market Value Chain and Sales Channel Analysis: It includes customer, distributor, Biochar market value chain, and sales channel analysis.

Market Forecast – Production Side: In this part of the report, the authors have focused on production and production value forecast, key producers forecast, and production and production value forecast by type.

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Our team at Reports Globe follows a rigorous process of data validation, which allows us to publish reports from publishers with minimum or no deviations. Reports Globe collects, segregates, and publishes more than 500 reports annually that cater to products and services across numerous domains.

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How Breakthrough Technology Is Converting Waste into Energy to Solve the Ocean Waste Pandemic

10 March, 2021
 

Denpasar – After 15 years of development and laboratory tests, EX Venture released Zero Carbon, a portable waste conversion system that will change how communities turn waste into useful resources. The commercial pilot has arrived in Uluwatu, one of the most prominent beach areas in Bali. Like many islands in Southeast Asia, Bali is negatively affected by a massive waste pandemic eroding the island’s reputation as a pristine vacation destination.

Gili Air, 2020

The patented Zero Carbon system runs on organic and inorganic waste in blended form, the way you would find it on beaches in Southeast Asia. The Zero Carbon process converts these mixed waste streams into clean energy used for household necessities, including electricity, heating, cooling, other household necessities, and biochar. Biochar is a chemically stable compound rich in Carbon and persistent to encourage Carbon forming in the soil to improve its health and fertility. Biochar is an effective carbon sink, and it sequesters carbon dioxide from the atmosphere in the ground soil for generations. The local biodiversity has been seriously harmed in marine environments trying to cope with massive solid and liquid waste emissions.

Zero Carbon offers validated technology with a proven super low emission standard. Converting mixed waste streams into clean energy is not an easy task, as confirmed by EX Venture’s CEO Julien Uhlig. There are so many chemical reactions that can cause harmful emissions. Most waste is either dumped into rivers ending up in the ocean, or gathered and set on fire. Both alternatives are detrimental to the environment and people alike. Lately, due to a strong rainy season, some of Southeast Asia’s beaches are ridden with massive amounts of waste. The famous Kuta beach probably set a new sad record recently with over 150 tons of garbage collected on a single day. Even collecting waste on the beach does not offer a long-term solution as long as treatment solutions are not in existence.

X5, as featured on CNN Business

Uhlig emphasizes the notion of having waste fuel to shape the future to generate energy. The technology turns non-utilized trash into clean energy with maximum efficiency and minimum cost. The machine was developed by EX Venture’s CTO Michael Hofmeister and his team at MFC in Germany within the last decade. Before release, the innovative and patented system has undergone more than 30 university tests in Germany’s Zittau Görlitz University of Applied Sciences. The study by the University concludes the viability and process stability of the X5 Machine.

The power systems, called X5, are the size of a refrigerator and can even be transported by a pick-up truck. The X5 system can operate on up to 25% plastic and 75% biofuels, which are pelletized out of organic waste, for instance, rice husks, straws, seeds, and other types of organic waste, and convert them out to be clean energy of carbon monoxide, hydrogen, methane, and nitric oxide.

“Through the process of gasification, these portable plants will combine mixed waste streams and convert them into a natural gas replacement. This producer gas can be used for power generation on-site,” Uhlig confirms, “The technology can convert waste into energy even in the middle of nowhere. The process of first reducing tar while removing clinkers and minerals from the reactor while keeping extremely high temperatures has been a long time challenge for the Team of MFC in Germany.”

The development of the X5 system is funded by EX Venture and multiple programs by German Federal and State Funding Sources such as the Federal Ministry of Economics and Technology and the Saechsische Aufbaubank (SAB).

Other than the machine’s portability, it also resolves the problem of many waste management systems. This reactor uses a high temperature of more than 1,000 degrees Celsius, hot enough to destroy all the harmful pollutants. The system uses a patented clinker crushing system that automatically pulverizes clinkers to dust. Combining a low tar process with the innovative clinker crushing system means that the machine can solve ocean waste problems on-site without harmful emissions, a real breakthrough. As studied, these regions have untreated waste due to non-existing treatment solutions.

In contrast to the benefits, these high-tech and easy-to-use treatment plants require extremely low maintenance. Uhlig said that both machines need around two to three bags of pelletized biofuels a day, and the automated clinker simply requires water for cleaning. The machine’s functionality will be managed remotely by the EX Venture’s laboratory by connecting data and controlling operations. All these features will enable the devices to be used by almost anyone without extensive technical training.

“We aim to have communities processing their waste and use it like electricity or thermal energy,” Uhlig smiled, “Seeing waste as a valuable resource is going to revolutionize the way we live.”

Julien Uhlig, Jan von Rosenstiel, Jessica Ehinger of EX Venture, with Wahyu Taufik of Selaras Group and Professor Vinaya of Udayana University

Uhlig and his team had worked to build the machine’s commercial pilot system, currently in the Udayana University of Bali. The Southeast Asian island of Bali presently does not operate sufficient waste treatment systems. Therefore waste is harming the reputation of this island known for its beautiful beaches. Today these beaches are far too often entirely littered in garbage, hurting local communities and tourists alike. Uhlig has a plan for wider and optimized distribution channels via organizational collaborations, community adoption, and retail sales at USD25,000 per unit. Initial customers will be hotels, for example, that want to treat their collected waste right on-site.

Brought to You by:

The EX Venture team has been managing more than 80 projects funded by the German government. Julien Uhlig, the founder, customizes EX Venture to resolve the world’s most challenging sustainability issues through investments through generous support from the German government. EX Venture also hosts EX Venture Night, a free online platform connecting leading investors and companies on a global scale.

Within the last decade, Uhligh and the EX Venture team have invested in small-scale waste-to-energy companies while working on realizing great clean technologies (cleantech) ideas to life. Uhlig himself has been featured in leading media, such as CNN, Bloomberg, The Guardian, and Japan Times, noted to be leading one of the most innovative companies in 2018 and nominated a mentor in building the next change-making entrepreneurs in cleantech from any parts of the world.

Media contact:

Julien Uhlig, CEO

Gavriella Tjandra, MEDIA

EX Venture PTE LTD.

Whatsapp: +49 178 2873624

E-Mail: press@exventure.co

Click here for high-resolution downloads.


Biofuel project proposed in McFarland would bury carbon from ag waste, produce alternative to …

11 March, 2021
 

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Considerable cloudiness. Low 43F. Winds ESE at 5 to 10 mph..

Considerable cloudiness. Low 43F. Winds ESE at 5 to 10 mph.

McFarland has agreed to sell this 80-acre, former alfalfa field to San Joaquin Renewables LLC for development of a biofuel project that would produce the equivalent of 21 million gallons of gasoline per year, along with an estimated 125 tons per day of biochar.

McFarland has agreed to sell this 80-acre, former alfalfa field to San Joaquin Renewables LLC for development of a biofuel project that would produce the equivalent of 21 million gallons of gasoline per year, along with an estimated 125 tons per day of biochar.

An Iowa technology company has proposed a first-of-its-kind bioenergy project in McFarland that’s expected to help cut a significant source of local air pollution while also reducing diesel emissions, burying carbon and employing about 50 local residents.

The project spearheaded by Iowa-based technology company Frontline BioEnergy proposes to “gasify” about 300,000 tons per year of nut shells and other local ag waste and turn it into natural gas equivalent to 21 million gallons of gasoline. It would also generate an estimated 125 tons per day of biochar, a versatile byproduct whose uses may include fertilizer.

Known as San Joaquin Renewables LLC, the carbon-negative project is among the first of a growing number of Central Valley bioenergy initiatives that, though opposed by activists leery of any fuel that emits even small amounts of pollution, is seen by state policymakers as a strong alternative to diesel fuel and open burning of ag waste.

“They’re turning a problem into a really high-benefit solution,” said Julie A. Levin, executive director of the trade group Bioenergy Association of California.

SJR President T.J. Paskach, who also serves as Frontline’s chief technology officer, said Wednesday that much work remains before construction can begin, including a full or environmental review and getting clarity from the state on the future of California’s Low Carbon Fuel Standard, which basically forces oil companies to contribute financially or operationally to the fight against climate change. He said the fuel standard’s fate is unclear after the year 2030.

The project would take about two years to build once all approvals are given, he said.

Ag waste has long posed a dilemma for Central Valley agriculture. Burned openly in many cases, it can be burned and converted into electricity. But many of the so-called biomass plants that consumed it have closed in recent years past, leaving some growers to burn it on their own, which emits fine particulates and other harmful materials.

SJR proposes to gasify the biomass using a highly efficient but expensive process that super-heats the waste but doesn’t combust it and therefore is considered a much cleaner alternative. What comes out of the process is methane the company hopes to inject into a local natural gas pipeline, plus carbon dioxide that would be stored deep underground and biochar.

Frontline, a 15-year-old company focusing on gasification technology, has built related projects but none like the one proposed in McFarland, Paskach said. 

Paskach acknowledged the concerns of climate-change activists who oppose development of renewable fuels in favor of strictly electrical-power technologies. He noted bioenergy projects such as this one have the potential to offset carbon emissions for a net benefit rivaling solar and wind power.

Frontline would license its technology to the project and help operate the plant on an 80-acre former agricultural field that served McFarland’s wastewater treatment system. But the company would be only a minority owner of the plant, which he said would be co-owned by local residents and farmers.

“We are in this space and we do want to help,” he said. “We’re not just in this to make money.”

The company is still considering what it might want to do with the byproduct biochar, Paskach said. It might be used as a soil amendment, odor-absorber or a component of fertilizer but it won’t be burned.

“We’re looking at options,” he said.

The California Air Resources Board, anxious to phase out ag burning by 2025, recently took a look at the potential for converting biomass into biofuel. It has proposed working with other agencies on promoting such work and, to help pay for it, pursuing funding from state and federal sources.

Levin, at the bioenergy association, said the project is exciting as the first of its kind. It could help the state reduce its use of diesel, which contributes heavily to the Central Valley’s poor air quality.

The project’s biochar could be used for many things, she said, including in water filtration and fabric dyes. It doesn’t decompose quickly and one of its best uses is to simply bury it in soil.

“No question it’s high-value,” she said, adding that some farmers use it in their soil as a way of increasing its water retention. “The question is, where is the highest value and how do we monetize that?”

Positive Cases Among Kern Residents: 104,509

Deaths: 948

Recovered Residents: 37,288

Number of Negative Tests: 337,967

Number of Pending Tests*: 434

Updated: 3/10/2021. Source: Kern County Public Health Services Department

*As reported by community healthcare providers.

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Biochar Fuel Market – Breakout Live

11 March, 2021
 

A Comprehensive Study on Biochar Fuel Market 2020 | Strategic market evaluation by prominent Players like: Biochar Fuel Products, Agri-Tech Producers, Hawaii Biochar Fuel, Pacific Biochar Fuel, The Biochar Fuel…

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World Biochar Fuel Market Research Report 2026 (covering USA, Europe, China, Japan, India …

11 March, 2021
 

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Bioenergy Equipment for Biochar in Agriculture applications … – Energy XPRT

11 March, 2021
 

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Improved yield and higher heating value of biochar from oil palm biomass at low retention time …

11 March, 2021
 

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Biochar Market Detailed Analysis of Current Industry Growth | Biokol, Biomass Controls, LLC …

12 March, 2021
 

The report on global Biochar Market offers data about the most recent affiliations and acquisitions that exist as of now also a couple of features on the future chance of acquisitions nearby information on huge purchasers and assistant zones that colossally influence this business space. Pieces of data concerning likelihood of the new pursuits in which the association will contribute are hinted in the report. Likewise it has reference with the impact of COVID-19 pandemic by and large business space. The record offers data about the squeezing individuals that hold a fundamental industry share around here space nearby data that contains the overall genuine level of this market place similarly it shares information on the past happenings and occasions of the essential affiliations that generally influence the business piece of ever close by scene. In like way, the report contains information and figure about the affiliations that is unmistakably going to be influenced because of the improvement of this industry either undeniably or antagonistically.

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Likewise, it contains genuine a few points of view, for example, production plans, market offers, and utilize worth and use volume. Key countries that contribute a gigantic industry share in the global Biochar Market are Switzerland, Argentina, Netherlands, UK, Spain, China, Korea, Taiwan, Thailand, South Africa, South Australia, United States, Italy, Chile, Saudi Arabia, Turkey, Egypt, UAE, Sweden, France, India, Malaysia, Mexico, Nigeria, Poland, Belgium, Canada, Columbia, Indonesia, Germany, Philippines, and Rest of the World.

It gives encounters concerning the stunning events happening in the business which hampers their unexpected new turn of events or central issues looked by the relationship to make themselves as affiliations and add to the improvement of industry or various regions subject to this one. Further, the Biochar Market report offers when in doubt perspective on the store network structure when the COVID-19 exude and what the pandemic has meant for the economy several countries things being what they are. Information concerning the past and current industry plans followed by the business and the undertakings is chronicled in the report.

Some of the Important and Key Players of the Global Biochar Market:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

Complete Summary with TOC Available @ https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=re

Scraps of information relating to the progression rate figures, surveying models, market share, utilize worth and volume are given in the report. Key affiliations that hold fundamental industry share are suggested. Further it gives information about the reliability of advancing toward attempts and tasks that the affiliations are expecting execute.
Considering the product range, the business is surrounded into different segments, are recommended in the report.
Various development efforts as well as additional details including new expansion considerations and dynamics changes have all been covered in a report known to encourage tremendous return on investment in the global Biochar Market.

Biochar Market Segmentation

Type Analysis of Biochar Market:

by Technology (Pyrolysis, Gasification and Others)

Applications Analysis of Biochar Market:

by Application (Agriculture and Others)

Complete analysis of the global Biochar Market

1. A new approach to competitive mapping was followed by in-house research experts who pioneer the global Biochar Market.
2. In this report on the global Biochar Market, the first-line players with detailed reference to the product overview with details on revenue generation potential, company overview and business strategy and objectives have been finely evaluated.
3. A bird’s eye assessment of production and consumption-based development, supply chain infrastructure, and logistics were all discussed in essence to encourage logical reasoning.
4. Price patterns, gross margins and overall investment targets and target achievement details were also analyzed in the report delivery.
5. We also followed application and end-use segments that are intricately related to past and present time frames to predict future trends to understand consumer trends, preference changes and subsequent buying decisions.
6. The Biochar Market Report is well structured to accommodate internationally recognized research methodologies and practices. The report includes Porter’s Five Forces Analysis, SWOT Analysis to accurately analyze the market feasibility.

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Biochar derived from chicken manure as a green adsorbent for naphthalene removal | SpringerLink

12 March, 2021
 

In this study, biochar was generated from chicken manure by using a tube furnace under different temperatures (300, 500, and 700 °C), and the treatments were noted as J300, J500, and J700, respectively. In comparison, another type of biochar was prepared under 500 °C with a muffle furnace, and the treatment was noted as JM500. Biochar in treatment group J500 was subsequently modified with HNO3 and NaOH, and the treatments were noted as J500-HNO3 and J500-NaOH, respectively. The sorption efficiencies of naphthalene by the above six types of biochar were evaluated. Characteristic results showed that the surface pores of the biochar were improved with the increase of temperature, and biochar under the treatments J300, J500, J700, and JM500 experienced a high speed of adsorption within 1 h after the naphthalene adsorption started. The adsorption capacity of naphthalene increased with the increase of the initial concentration of naphthalene. Treatment J700 exhibited the largest adsorption capacity since its biochar surface pore structure was more fully developed with a crystal structure formed, and its specific surface area was increased by about 20 times compared to the original chicken manure. After biochar modification using HNO3 and NaOH, the infrared spectrum changed, and the adsorption active sites were increased. The biochar modification by HNO3 had a high naphthalene adsorption efficiency compared to NaOH. The order of adsorption capacity was as follows: J500 ≈ JM500 < J300 < J500-NaOH < J500-HNO3 < J700.

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This work was financially supported by National Key R&D Program of China (2019YFC1803405; 2019YFD1101300).

C.L. and Z.Y. designed and did the experiments, while D.H., F.M., and R.C. helped during the experiments. L.Z. and C.H. supervised the work.

Correspondence to Liandong Zhu or Chaozhen Hu.

This paper is our unpublished work and it has not been submitted to any other journal for reviews. Thus, it has not been previously published, in whole or in part, and it is not under consideration by any other journal.

All authors are aware of, and accept responsibility for, the manuscript.

The authors declare that they have no conflict of interest.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Responsible Editor: Zhihong Xu

Received: 27 August 2020

Accepted: 01 March 2021

Published: 11 March 2021

DOI: https://doi.org/10.1007/s11356-021-13286-x

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Visual Analytics Market Research Report 2021 Size, Share, Growth, Covid-19 Impact Analysis, key …

12 March, 2021
 

A new business intelligence report on the global Visual Analytics Market has recently been added to the Dynamic Report Repository and has been published to provide an exclusive hands-on reference to the various market dynamics that will enable high potential growth in the global Visual Analytics Market. The report presents a market summary, sophisticated TOC, a variety of unique research methodologies, and a research database composed of multiple data sources.

This report has been prepared to encourage and guide investor investment with a detailed analysis of the five forces SWOT, PESTEL and PORTER. The report has been designed with current and past developments in mind that are critical to utilizing profitable forecast development to ensure stable market growth and uninterrupted survival despite fierce competition in the global Visual Analytics Market.

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Five-Pointer Guide for Report Investment

1. Thorough end-to-end review and analysis of Visual Analytics Market events and their meaning
2. Thorough compilation of a wide range of market segments
3. Complete demonstration of industry best practices, careful business decisions, and manufacturer activity driving revenue sustainability in the global Visual Analytics Market
4. A complete assessment of the competitive spectrum, including relevant details for key and emerging players
5. Precise review of the key dynamics and dominant changes influencing the growth of the global Visual Analytics Market.

Some of the Important and Key Players of the Global Visual Analytics Market:

Verint Systems,NICE,Avaya,Microsoft,Oracle,Qilik,SAP,IBM,Tabaleu Software,MicroStrategy,SAS Institute,TIBCO Software,Alteryx,Others

Browse the complete report Along with TOC @ https://www.adroitmarketresearch.com/industry-reports/visual-analytics-market?utm_source=Paneigh

This market report provides a holistic view about the market dynamics and overall outlook through providing a concrete explanation about key drivers, restrains, opportunities, and challenges in the coming years. It also offers key insight about the current market trend and performance in respect to various products associated with the market. It also highlights key insights on which component is expected to expand significantly and which region is emerging as the key potential destination of the Visual Analytics market. Moreover, it provides a critical assessment of the emerging competitive landscape of the manufacturers as the demand for the Visual Analytics is projected to increase substantially across the different regions.

Regional Analysis of Visual Analytics Market:

Due to its regional focus, the Visual Analytics market is alien to North America, Europe, Asia-Pacific, the Middle East, and Africa as well as Latin America. Major companies are working on distributing their products and services across different regions. In addition, procurements, and associations from some of the leading organizations. All the factors intended to drive the global Visual Analytics market are examined in depth.

Visual Analytics Market Segmentation

Type Analysis of Visual Analytics Market:

By Deployment (On-premise,Cloud-based0 By Function (IT,Sales anding,Finance,HR,Supply Chain) By End-User (BFSI,Retail & eCommerce,Telecom & IT,Healthcare,Others)

Applications Analysis of Visual Analytics Market:

NA

Why you should buy this report?

1. This report offers a concise analysis of the Visual Analytics market for the last 5 years with historical data & more accurate prediction for upcoming 6 years on the basis of statistical information.
2. This report helps you to understand the market components by offering a cohesive framework of the key players and their competition dynamics as well as strategies.
3. The report is a complete guideline for the clients to arrive an informed business decision since it consists of detailed information for better understandings of the current & future market situation.

The following is the TOC of the report:

Executive Summary
Assumptions and Acronyms Used
Research Methodology
Visual Analytics Market Overview
Global Visual Analytics Market Analysis and Forecast by Type
Global Visual Analytics Market Analysis and Forecast by Application
Global Visual Analytics Market Analysis and Forecast by Sales Channel
Global Visual Analytics Market Analysis and Forecast by Region
North America Visual Analytics Market Analysis and Forecast
Latin America Visual Analytics Market Analysis and Forecast
Europe Visual Analytics Market Analysis and Forecast
Asia Pacific Visual Analytics Market Analysis and Forecast
Asia Pacific Visual Analytics Market Size and Volume Forecast by Application
Middle East & Africa Visual Analytics Market Analysis and Forecast
Competition Landscape

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Youtube biochar inoculation – soulexplosion.it

12 March, 2021
 

pre-charging biochar – смотри бесплатно и без рекламы в видеоплеере о pre-charging biochar и Some talking points and addressing questions about biochar & rants about comments on biochar…该文档贡献者很忙,什么也没留下。


Biochar Market Size, Share, Analysis and Projection, Application, and Region – Global Forecast to …

12 March, 2021
 

This press release was orginally distributed by SBWire

New York, NY — (SBWIRE) — 03/12/2021 — The global biochar market is expected to reach USD 3.67 Billion by 2027, according to a new report by Reports and Data. It finds usage as a feed additive and is considered beneficial for the improvement of feed efficiency, animal health, and environment for livestock housing. Livestock rearing is providing better growth prospects for the use of biochar. Animals ranging from earthworms to chickens and cattle, among others, show great interest in food when biochar is added to it. In the European Union, around 90.0% of the biochar is used to feed livestock, and remaining is used in applications, including spreading on agricultural land with manure. A direct application of the product in poultry rearing is the reduction and elimination of odors produced from poultry litter, especially ammonia. The strong positive electric charge of ammonia makes it corrosive and harmful to breathe. This chocking gas is released by bird droppings, making the air toxic and unhealthy to living beings.

Growing demand for high crop yield is one of the significant factors influencing the market growth. The product allows farmers to increase their crop yield by boosting the productivity of the agricultural land, as well as can make an otherwise less productive land produce substantial yields. Biochar soil amendment improves crop productivity mainly by increasing nutrient use efficiency and water holding capacity.

However, the high cost associated with the production of biochar and low awareness about the beneficial properties may create hindrances in the growth of the market in the upcoming years.

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Key participants include Diacarbon Energy Inc., Cool Planet Energy Systems Inc., Agri-Tech Producers LLC, Biochar Products Inc., Vega Biofuels Inc., Phoenix Energy, Pacific Pyrolysis, The Biochar Company, Clean Biofuels BV, and Biochar Supreme LLC, among others.

For the purpose of this report, Reports and Data have segmented the global biochar market on the basis of technology, distribution channel, application, and region:

Technology Outlook (Volume, Kilo Tons, Revenue, USD Million; 2017-2027)

Pyrolysis
Gasification
Others

Distribution Channel Outlook (Volume, Kilo Tons, Revenue, USD Million; 2017-2027)

Online
Offline

Application Outlook (Volume, Kilo Tons, Revenue, USD Million; 2017-2027)

Livestock
Farming
Others

Regional Analysis of the Biochar Market:

The global Biochar market is categorized into several leading geographical regions, including North America, Europe, Latin America, Asia Pacific, and Middle East & Africa. The report emphasizes the demands and trends for the market, more essentially, in the global market that is spread across the major regions of the world. Under this section of the report, the global Biochar market presence across the major regions in terms of the global market share, market size, revenue contribution, sales network, and distribution channels has been analyzed.

Gain Access to the Complete Report @ https://www.reportsanddata.com/report-detail/biochar-market

Further key findings from the report suggest

By technology, pyrolysis contributed to the largest market share of around 75.0% in 2019. It is the most commonly used method for the production of biochar. In this method, the product is produced by the decomposing biomass thermo-chemically in the absence of oxygen at a temperature in the range of 350-700 °C. The process discharges volatile end-products, whereas the carbon-rich solid and non-volatiles end-products are collected as biochar.

By distribution channel, offline held a larger market share in 2019. The biochar industry is very offline-intensive and witnesses transparency. The offline channel necessitates the requirement of substantial investment of time by the buyer and high selling costs, along with considerable knowledge of the market on the seller side.

By application, farming contributed to the largest market share in 2019. The application of biochar for crop production is a feasible alternative that can improve the carbon sequestration rates in the soil, improve soil quality, and reduce farm waste. The product is considered to be beneficial in increasing conventional agricultural productivity and alleviate greenhouse gas emissions from agricultural soils.

The market in the North American region dominated the market in 2019 and is likely to grow at a rate of 11.6% in the forecast period. The market dominance of the region is owing to a high consumption of meat and a growing inclination for organic food. Besides, high awareness about the benefits of the product in the region is driving the market growth.

Highlights of the TOC:

Chapter 1. Market Synopsis
1.1. Market Definition
1.2. Research Scope & Premise
1.3. Methodology
1.4. Market Estimation Technique
Chapter 2. Executive Summary
2.1. Summary Snapshot, 2019-2027
Chapter 3. Indicative Metrics
Chapter 4. Biochar Segmentation & Impact Analysis
4.1. Biochar Material Segmentation Analysis
4.2. Industrial Outlook
4.2.1. Market indicators analysis
4.2.2. Market drivers analysis
4.2.2.1. Escalating demand for biochar as livestock feed
4.2.2.2. Surging demand in greenhouse remediation
4.2.2.3. Increasing population
4.2.3. Market restraints analysis
4.2.3.1. Requirement of high initial investment
4.3. Technological Insights
4.4. Regulatory Framework
4.5. ETOP Analysis
4.6. Porter's Five Forces Analysis
4.7. Competitive Metric Space Analysis
4.8. Price trend Analysis
4.9. Customer Mapping
4.10. Covid-19 Impact Analysis
4.11. Global Recession Influence

Continue…

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Youtube biochar inoculation

13 March, 2021
 

Making Biochar: with Peter Hirst of New England Biochar is a great video showing the two-drum approach, producing a small batch of around 30 lbs biochar, with good discussion of other methods and inoculation with compost; SKB's Double barrel charcoal retort is video of a two-barrel approach Перевод слова inoculation, американское и британское произношение, транскрипция to give an inoculation — делать прививку skin inoculation — кожная инокуляция instant inoculation…


A critical review on the application of biochar in environmental pollution remediation: Role of …

13 March, 2021
 

Formation mechanisms of PFRs in BC are reviewed.

Catalytic role of BC-PFRs in environmental pollution remediation is evaluated.

BC-PFRs systems include redox, advanced oxidation, photocatalytic, and sonocatalytic system.

Future challenges of BC-PFRs in environmental pollution remediation are proposed.

Formation mechanisms of PFRs in BC are reviewed.

Catalytic role of BC-PFRs in environmental pollution remediation is evaluated.

BC-PFRs systems include redox, advanced oxidation, photocatalytic, and sonocatalytic system.

Future challenges of BC-PFRs in environmental pollution remediation are proposed.

Biochar as an emerging carbonaceous material has exhibited a great potential in environmental application for its perfect adsorption ability. However, there are abundant persistent free radicals (PFRs) in biochar, so the direct and indirect PFRs-mediated removal of organic and inorganic contaminants by biochar was widely reported. In order to comprehend deeply the formation of PFRs in biochar and their interactions with contaminants, this paper reviews the formation mechanisms of PFRs in biochar and the PFRs-mediated environmental applications of biochar in recent years. Finally, future challenges in this field are also proposed. This review provides a more comprehensive understanding on the emerging applications of biochar from the viewpoint of the catalytic role of PFRs.


Bamboo Biochar Organic Fertiliser

14 March, 2021
 

Bamboo Biochar Organic Fertiliser is a biochar-based soil amendment product that is engineered to improve soil health, reduce water consumption and help optimise fertiliser use while sequestering substantial amounts of carbon. The highly porous physical structure of Bamboo Biochar also makes it a promising delivery system for microbials and nutritionals designed to enhance plant growth and productivity.

Bamboo Biochar benefits:

1) Improve the soil’s water holding capacity
2) Increase nutrient availability
3) Activate beneficial microorganisms around the roots
4) Neutralise acidic soil, pesticides and heavy metals
5) Reduce fertiliser and pesticide use
6) Long term benefit from only one application
7) Increase yield and quality of produce

Antibacterial: The bamboo biochar provides a habitable and favourable environment for beneficial bacteria with biocontrol properties to flourish. These species are used to inhibit harmful bacteria in the soil, prevent root rot, fusarium wilt and other continuous cropping pests, kill nematodes and insect eggs in the soil, and keep the roots of the crops in a safe environment.

Promote and nourish roots: The metabolites of beneficial microorganisms contain a variety of natural growth factors, which can improve the growth of roots even under adverse conditions. These metabolites supplement organic nutrients such as amino acids to ensure the plant has a diverse source of the nutrients needed for root growth and plant health.

Improve soil fertility: Bamboo Biochar is rich in amino acids, organic matter, alginic acid, chitin and fulvic acid which promotes the formation of soil aggregate structure, improves the living environment of beneficial microorganisms, dissolves phosphorus, potassium, and fixes nitrogen. Bamboo Biochar improves the efficiency of fertiliser absorption by the plant, thus reducing fertiliser consumption, thus solving the problem of soil acidification and salinisation.

Comprehensive nutrition and increase yield: Provides access to a comprehensive range of sources of plant nutrition. Bamboo biochar aids the chelation of large and medium trace elements, promoting the growth of crop roots, stems, and leaves, and improving the overall yield and quality.

Organic, chemical-free bamboo biochar for strong, healthy plants from root to tip. Get seedlings off to a flying start, avoid transplant stress, and naturally revitalise tired plants. Used by professional growers.

It’s easy to apply and, because of its water holding qualities, it means less maintenance of plants, crops and lawns. It also means you’ll save a bit on those water bills.

PERMANENT EFFECTS
Biochar is so high in carbon that it doesn’t break down over time, meaning one application is all you need to permanently improve your soil.

ENVIRONMENTALLY FRIENDLY
1 tonne of biochar in the ground is the equivalent of 3 tonnes of carbon dioxide permanently sequestered from the atmosphere.

IMPROVES PLANT HEALTH
Enriched biochar is proven to boost the health and vitality of nearly every type of plant, and healthier plants are stronger and more productive.

Benefits

Storage: Keep dry

Net weight: 25 kg

Appearance: Black granule


Evaluation of the adsorptive removal of cationic dyes by greening biochar derived from agricultural …

15 March, 2021
 

In this study, biochar derived from agricultural bio-wastes of rice husk was used as a biosorbent for dye sequestration of Basic Blue 41 (BB41) and Basic Red 09 (BR09) from the aqueous solution. The structural characteristics of the biochar were performed through TGA, BET, SEM, EDX, and FTIR. The experimental conditions proved that 80% of dye removal was attained in the optimal operating conditions (dosage of 6 g L−1 (BB41), 1 g L−1 (BR09), pH of 7 (BB41) and 8 (BR09), temperature of 35 °C, and initial dye concentration of 50 mg L−1). Four different isotherms models were used to describe the adsorption process. Based on the correlation coefficient and percentage of error values, BB41 and BR09 sorption revealed that Langmuir model has better fit when compared to other models. The maximum adsorption capacities of BB41 and BR09 on rice husk biochar are 17.596 mg g−1 and 168.49 mg g−1, respectively. The thermodynamic parameters △H < 0 and △G < 0 indicated that the whole adsorption process of rice husk biochar to BB41 and BR09 is exothermic and spontaneous at low temperature. The regeneration studies were carried out with different elutants to confirm the elution efficiency of the sorbent. The results indicate the biochar derived from agricultural bio-waste of rice husk was a potentially greening biosorbent for the dye sequestration from wastewater.

The major environmental anxiety in the world is due to water pollution. Most of the wastewaters released from various industries have not undergone any treatment, whereas only 8% of the wastewater is treated hardly in low-income countries [1, 2]. Rivers and streams are the common recipients of industrial effluents across the world. The deterioration in the quality of water has a direct effect on human beings as well as aquatic ecosystem [3].

The prominent pollutants of waters are arising out from the activity of dyeing process in various industrial operations such as cosmetics, leather, paper, pharmaceutical printing, and textiles [4]. The major source of industrial water pollution across the globe occurs primarily through dyeing and finishing of textile processing units [5], in which cationic dyes are mostly used [6,7,8]. These dying agents are toxic, mutagenic, and carcinogenic which also decrease the penetration of lights, photosynthetic nature, presence of oxygen, and restrictive downstream beneficial uses [9]. These waste effluents must be processed before discharge into streams [10]. So far, such forms of treatments are not yet in practice to tackle such capacities [11]. Because of this, water pollution becomes an environmental issue and it is mandated by the government to drive these industrial plants for effective wastewater treatment techniques. To arrest these situations, adsorption [12,13,14,15,16], photocatalytic [17,18,19], electrochemical [14], and reverse osmosis [17, 18] techniques are necessary.

Activated carbons are most commonly used commercial adsorbent for real-time applications of industrial wastewater treatment due to their microporous structure and high degree of surface reactivity [20]. However, the high costs associated with the regeneration of commercially available carbon have limited its use in wastewater treatment techniques [21, 22]. Whereas adsorption is the most commonly known, cost-effective, and simplest treatment technique for the removal of dyes using carbon-rich bio materials [23].

The wastes generated from the agricultural industries are constituted of lignocellulosic biomass, which are fully accessible, efficient, economic, environment-friendly, and an alternate to the commercially available activated carbon [24, 25]. The intensive applications of this leftover materials were due to the fermentation of soluble organic biomass molecules [26]. However, the modification in the biomass decreases secondary degradation and increases the adsorption potential in addition to the untreated biomass. Physical and chemical methods are the most widely used biomass alteration processes, in which the physical method is easy and inexpensive, but its applicability is restricted by its low efficiency and by its efficacy in extracting different pollutants. Due to the accessibility of numerous modifying agents such as acids and bases, the chemical method was preferred [27]. The utilization of agricultural by-products as biomass supplies is likely to lead to bioeconomic growth [28]. Rice husks are the most common crop residues used as a biomass feedstock. These crop residues are the non-edible sections of plants remaining in the field after harvesting [29]. Activated carbon from rice husk was used as an adsorbent for various applications in which impurities and low-level contaminants are eliminated primarily [30]. However, the applications of rice husk–derived biochar for dye sequestration studies are limited.

Biochar is a carbon-rich solid substance obtained from biomass through pyrolysis technique with no oxygen atmosphere [31], and it has been used in numerous applications including soil preparation, carbon sequestration, and removal of organic pollutants and heavy metals from wastewater [6, 7, 24, 32, 33]. The rice husk–derived biochar was evident for various applications by different researchers due to its high carbon content, enhanced dye removal efficiency, high surface areas [34], low cost in its preparation [33], and abundance. No studies have been reported to date about our knowledge of the biosorbent application of rice husk in the removal of BB41 and BR09 by adsorption. Thus, the present study was majorly focused on the effective usage of rice husk biochar as a safe biosorbent to discard cationic dyes BB41 and BR09 from aqueous solution. The rice husk biochar sorption capacity was primarily associated with adsorption affecting parameters such as pH of the aqueous solution, biochar dosage, initial concentration, and temperature. Rice husk biochar’s adsorptive efficiency for extracting BB41 and BR09 has been analysed by kinetics and modelled using isotherms.

Basic Blue 41 (C.I. = 11,105; molecular formula = C20H26N4O6S2; molecular weight = 482.57 g M−1) and Basic Red 09 (C.I. = 42,500; molecular formula = C19H17N3 HCl; molecular weight = 323.82 g M−1) and reagents regarding these cationic dyes utilized in the experimental work were purchased from Sigma-Aldrich Private Limited, India, with analytical grades. Deionized water was used throughout in this experiment for preparing solutions. Rice husk leftover after the processing from the rice mills in the local area was used as the biomass feedstock for biochar preparation. Therefore, these raw materials were washed utilizing tap water to absorb dirt and dust and then sunken for 2 days. The feedstocks were further dried for 24 h at 70 °C and then pulverized for biochar output to less than 100 mm [35]. The dye solution was prepared by dissolving the needed amount of BB41 and BR09 in deionized water; the dye solution was prepared. The dye solution pH was modified using either 0.1 M HCl or 0.1 M NaOH to the required values [36].

The biomass was pyrolysed in a muffle furnace under slow pyrolysis condition with a targeted temperature of 300, 350, 400, 450, and 500 °C [35, 37]. The rate of heating was maintained as 10 °C min−1, and the residence time was kept at 120 min. After natural cooling, the resultant biochar was grounded and sieved to achieve a standardized particle scale. Furthermore, it was transferred to a desiccator in order to use it for a wide range of sorption and characterization studies. The biochar yield after the pyrolysis can be determined by using Eq. 1.

A 1000-mg L−1 solution (BB41 and BR09) was prepared in deionized water which was diluted to obtain the solution of desired concentrations. The biochar dosage is moved to a 250-mL Erlenmeyer flask consisting of 100-mL dye concentration. After sealing, the flasks were placed in a horizontal shaker at a rate of 200 rpm. Adsorption influence parameters, initial concentrations (25–200 mg L−1) of dye, contact time of 0–6 h, ambient temperature of 25–50 °C, and solution pH (2–10) were controlled. After adsorption, the resultant solution was made to undergo centrifugation for 10 min at 3500 rpm. The supernatant obtained after the centrifuge was used to determine the enduring concentrations by double beam UV-visible spectrophotometer (Systronics AU-2701) with a peak wavelength (618 nm (BB41) and 546 nm (BR09)). The dye adsorbed capacity at equilibrium condition was determined using the following Eq. (2).

where Q is the uptake of dye by sorbent (mg g−1), V is the dye solution volume (L), C0 is the initial concentration of dye used (mg L−1), Ce is the final (equilibrium) concentration of dye remained in the solution (mg L−1), and W is the mass of biochar (g).

Microtrac BEL Corp surface area analyser by N2 adsorption isotherms was utilized to find out the specific surface of biochar in 77 K following Brunauer-Emmett-Teller (BET) method. The authors used SEM technique (ZEISS-Gemini SEM) to elucidate the surface morphology properties of biochar. EDX analysis was used to find out the element-wise composition of individual points of elements from the imaged area of a sample in alignment with SEM. Fourier transform infrared spectrometer (FTIR) (Nicolet 6700) analysis was used to identify the surface functional group from the spectrum of 4000–400 cm−1 of the biochar samples. Biochar thermogravimetry was analysed using a thermogravimetric analyser (TG 207 F1 Libra, Netzsch, Germany), at a temperature range of 20 to 820 °C and a heat rate of 10 °C min−1.

Four different isotherm models of Freundlich (Eq. 3), Langmuir (Eq. 4), Sips (Eq. 5), and Toth (Eq. 6) models were incorporated to simulate the dye adsorption isotherm data:

where Qmax is the maximum uptake of dye by the sorbent (mg g−1), nF is the Freundlich exponent, KF is the coefficient of the Freundlich model (mg g−1) (L mg−1) 1/nF, bL is the equilibrium coefficient of Langmuir model (L mg−1), as is the coefficient of Sips model (L mg−1), βs is the exponent of Sips model, Ks is the isotherm coefficient of Sips model (L g−1). bT is the constant of Toth model (L mg−1), and nT is Toth model exponent. Both pseudo-first-order and pseudo-second-order models described the adsorption kinetic and is given herewith:

where Qt is the dye uptake capacity at any time t (mg g−1), Qe is the equilibrium dye uptake capacity (mg g−1), and k1 (min−1) and k2 (g mg−1 min) are the rate constants of the pseudo-first- and pseudo-second-order models, respectively.

Desorption of dye-bounded rice husk biochar was analysed using various elutant, such as 0.01 M hydrochloric acid, 0.01 M nitric acid, 0.01 M sulphuric acid, 0.01 M sodium hydroxide, and deionized water. For desorption experiments, the different elutants (100 m L−1) were kept in contact with dye-bounded biochar in a 250-mL Erlenmeyer flask for 150 min with an agitation of 160 rpm in an orbital shaker; the content of the flask was further centrifuged for 5 min at 3000 rpm. The elution efficiency was determined from the ratio of dye desorbed (mass) after elution to that of dye adsorbed (mass) initially to the biochar. The elutant which gives the maximum desorption efficiency in the number of cycles was considered the best elutant for this process. Desorption experiment was also conducted for the elutant with different solid-to-liquid ratios (S/L ratio) of 1 to 8 g L−1 and the elution efficiency was calculated. The sorption-elution process was repeated to determine the regenerating efficiency of the sorbent.

Figure 1 shows the yield of rice husk biochar after pyrolysis. When the pyrolysis temperature was increased from 300 to 400 °C, the biochar yield varied from 60 to 44%. This decrease in rice husk biochar yield was attributed to the discharge of excessive volatile matter. Increasing the pyrolysis duration (residence time) across the same temperature also has a similar influence but only at lower temperatures because at higher temperatures mostly, it alters the biochar surface and internal structure [38]. In the event of slow pyrolysis condition, the biochar yield was high which further enriched the volatile matters [6, 7, 39]. Therefore, owing to the physiochemical structure, the biochar yield was highly affected by the pyrolytic climate. The yield of biochar was described as biochar weight percentage that got recovered at the end of pyrolysis (Ronsse et al. 2013). The biochar produced at 300 °C was determined as best based on the operating conditions and the yield analysis.

Role of pyrolysis temperature on the yield of rice husk biochar

The thermographic data and the derivative weight loss curves of rice husk biochar are shown in Fig. 2. Thermal analysis is an easy way to determine the composition of biomass [40]. In this analysis, the biochar samples exhibited a thermal degradation profile that increased by weight proportionally to the pyrolytic temperature. DTG curve indicates that the decomposition starts at 220 °C, exhibiting three events corresponding to the decomposition of hemicellulose (270 °C), cellulose (360 °C), and lignin (400 °C). These different intensities are representing the release of volatile matters with respect to the decomposition of hemicellulose and cellulose. The higher mineral content of rice husk was due to this behaviour. The mineral component serves as a barrier towards heat propagation, and hence, the volatile matter got released during the charging [41].

TGA and derivative weight loss (DTG) curves of rice husk

The surface morphological characteristics of rice husk and its biochar are investigated by scanning electron micrographs as described in the Fig. 3. The observations from the SEM of rice husk biochar before adsorption showed highly agglomerated mass with certain voids and it seems to be porous in nature. The biochar surface was found to be smooth with a few flaky particles prior to the adsorption of cationic dyes. However, after adsorption of the cationic dyes, the SEM images of the rice husk revealed that the surface was rough and many grooves formed whereas the voids and pores disappeared. Thus, the adsorption of the cationic dyes clearly indicates that biochar had modified its surface morphology. Similar changes were observed by Krishnamurthy et al. [42] for the removal of wastewater by modified coffee husk. The findings of the EDX analysis are illustrated in Fig. 4. The presence of higher carbon (57.42%) and oxygen (24.61%) with low nitrogen and sulphur content (2.44%) and silicon content (15.53%) was shown to be chemically rough surface for rice husk biochar. This observation exposed that carbon was the main corpse with oxygen in this biochar [43, 44]. From this inference, the surface and other textural properties of rice husk biochar were attributed to the BET surface area analysis and it recorded a specific surface area (2.33 m2 g−1), mean pore diameter (22.44 nm), and total pore volume (1.31 cm3 g−1). This observed BET surface area might be attributed to the decomposition and further softening of some volatile fractions which resulted in an intermediate melt in the structure of the biochar. This melt is capable of quickly blocking the pores and reducing the surface [45].

SEM of rice husk (a), rice husk biochar (b), BB41 laden rice husk biochar (c), BR09 laden rice husk biochar (d)

EDX spectrum of rice husk biochar

The recorded FTIR spectrum of a dye-loaded rice husk biochar samples showed (Fig. 5) changes in the IR adsorption characteristics of different functional groups which might have played a role in cationic dye adsorption process. The shifts in absorption peaks at 788 cm−1 (C-H) assigned to the alkene group bend; 1051 cm−1 assigned to primary alcohol stretch vibration (C-O), 1602 cm−1, reflects the skeletal stretching vibration in adsorption indicated the role played by the hydroxyl functional groups when it comes to dye binding (C=C stretch, N-H bend), 2166 cm−1 assigned to alkynes stretching vibration (C ≡ C stretch), 2930 cm−1 assigned to vibration of alkanes and alkyls suggested new bonding between the ligands and dye molecules (C-H stretch) and 3752 cm−1 (O–H, N-H) reflects the stretch vibration of bonded hydroxyl groups. Thus, the FTIR spectrum of rice husk biochar before adsorption indicates that the external surface was enriched with various functional groups. These active functional groups on the biochar surface are responsible for enhancing the adsorption of the dye molecules due to electrostatic interactions [46, 47].

FTIR spectrum of rice husk biochar and BB41 and BR09 bounded rice husk biochar

The biochar dosage was a significant factor which influenced the dye sorption capacity. The influence of dosage on the percentage of dye removal is shown in Fig. 6. The influence of different biochar dosage 1, 2, 4, 6, 8, and 10 g L−1 on adsorption of cationic dye (BB41 and BR09) was examined with 50 mg L−1 dye concentration, 35 °C of temperature, and pH 8. The experiment revealed the increase in biochar dose with increase in the percentage removal of BB41 and BR09 from 56.02 to 96.49% and 88.03 to 92.10%. This may be due to the presence of more surface sites for adsorption. Furthermore, the addition of rice husk biochar would simultaneously decrease the adsorbent capacity by reducing the total surface area with increasing the distance of diffusion path [48]. Similar results were observed by Tsai and Chen [49]. The optimum rice husk biochar dose is 6 g L−1 (BB41) and 1 g L−1 (BR09) from the experiment for cationic dyes.

Role of biochar dosage

The pH of the solution remains the key influential parameter and the pH on adsorption was reliant on the type of adsorbents and targeted pollutants. Figure 7 shows the impact of pH upon the percentage removal of dye. The percentage removal also raised from 87.92 to 91.34% and from 72.30 to 88.03% for BB41 and BR09, as the solution pH improved from 3 to 8. With this pH increase, the basic dye adsorption capacity is generally increasing and, in alkaline conditions, the adsorption efficiency is obviously greater than the acidic one. The pH of the solution is alkaline following adsorption. The negative charge is isolated from the biochar functional group’s comprising oxygen, which makes the negative charge on biochar more negative [50]. As the solution’s pH increases, the potential is gradually more negative and the electrostatic effect is much stronger [6, 7]. By observing these conditions of removal efficiency, pH value of 7 (BB41) and 8 (BR09) were taken as optimal for peak performance of rice husk biochar and used in further experiments.

Role of pH

To study the influential characteristics of temperature on cationic dye sorption by rice husk biochar, the experiments were carried out in the temperature ranging from 35 to 50 °C at optimized conditions with the desired dye of 50 mg L−1 concentration. Figure 8 showcases the impacts of temperature upon BB41 and BR09 removal efficiency on rice biochar. The analysis inferred that the percentage of cationic dye removal by rice husk biochar varied from 91.34 to 88.75% and 88.03 to 84.95%. These observations clearly indicate that the dye sorption got decreased when the temperature was increased. This might also be because of the reduction in adsorptive forces between dye molecules and active binding sites. The experiment showed that the percentage of cationic dye removal by rice husk biochar decreased from 91.34 and 88.75% and 88.03 and 84.95%, and these results indicated strong decreases in dye sorption at that temperature because of a reduction in the adsorption forces between the dye molecules and the active adsorption. Subsequently among the varying temperature examined, 35 °C was an ambient temperature for cationic dye sorption process.

Role of temperature

The impact of concentration of initial dye on the percentage removal of cationic dyes was analysed by using rice husk biochar at different initial solute concentrations 25–200 mg L−1 for an optimized operating condition. In the optimized conditions of operational processes, rice husk biochar was used to analyse the influence of initial dye concentration on the percentage removal of cationic dyes at various initial solute concentrations between 25 and 200 mg L−1. The association between the initial dye concentration of cationic dye sorption as seen in Fig. 9 and it was clear that the initial dye concentration increased with the decrease in percentage removal of cationic dyes and the percentage removal of BB41 and BR09 were observed as 97.34% and 92.34%, at 25 mg L−1 52.08% and 64.84% at 200 mg L−1 respectively. These effects can be a consequence of the accumulation of active sites on the substrate surface area and the permeation of dye molecules through the pores of the biochar. After making all these assumptions, 50 mg L−1 was chosen as the optimal concentration for BB41 and BR09 rice husk biochar.

Role of initial dye concentration

In the first few hours, the influence of contact time upon the adsorption of cationic dyes was determined on the rice husk biochar, and observations of the exposure rate were rapid, followed by slow achievements in balance. During the rapid adsorption period, approximately 90% of the adsorption capacity at equilibrium was defined by BB41 adsorbed in the rice husk biochar. The adsorption was illustrated in the initial stages solely in a relatively short period of time. Following this rapid phase were slower achievements in the equilibrium where the dye concentration had not improved substantially, as dye molecules had been already used on accessible sites, and this pattern was further investigated as BR09. Pseudo-first-order (Eq. 7) and pseudo-second-order (Eq. 8) models were deployed to investigate the kinetics of BB41 and BR09 adsorption (Tables 1 and 2). The figure of kinetic curves (Figs. 10, 11, 12 and 13) shows that the maximum uptake capacity of rice husk biochar was 151.28 mg g−1 for the BR09, accompanied by the BB41 (18.29 mg g−1) at 200 mg L−1. Using the kinetic data of (BB41 and BR09) the investigated dyes showed a better estimate with low percentage errors and of greater correlation coefficient (> 0.99). The estimated capacity for uptake (Qe) was also increased with the initial dye concentration. When analysing, the predicted uptake reveals that the pseudo-second-order model have good fit with the uptake values of experiment.

Pseudo-first-order kinetics of BB41 onto rice husk biochar

Pseudo-first-order kinetics of BR09 onto rice husk biochar

Pseudo-second-order kinetics of BB41 onto rice husk biochar

Pseudo-second-order kinetics of BR09 onto rice husk biochar

BB41 and BR09 were analysed with rice husk biochar at a wide range of initial concentrations of the dye solution. With the increase of initial dye levels between 10 and50 mg L−1, the amount of cationic dye adsorbed with the rice husk biochar has been clearly raised. The linear correlation with the initial concentration was noticed for the dye sorption efficiency. When the initial concentration was increased further, the increase rate of dye sorption capacity was oddly reduced. This improved adsorption potential with a higher initial dye concentration may be due to a greater driving force between the solid phase of the liquid dye and that of the rice husk biochar. The adsorption data is designed in four different isotherm models, including Freundlich, Langmuir, Sips, and Toth, to model the dye solution adsorption cycle onto the rice husk biochar. Equations 36 which denote the Freundlich, Langmuir, Sips, and Toth models were selected to fit the adsorption isotherms, and the outcomes are shown in the Figs. 14 and 15 and in Table 3. The Langmuir model specifically defined the adsorption with a correlation coefficient (R2) higher as 0.943 than those of other BB41 dye sorption models. This was largely due to a homogenous adsorption of the monolayer [51] and the maximum adsorption capacity of rice husk biochar monolayers (Qmax) was 168.494 mg g−1 (BR09), followed by 17.596 mg g−1 (BB41), compared to 0.211 (BB41) and 0.043 (BR09) related constant of the binding energy of the sorption system (bL). It has been shown favourable for highly effective dye adsorbent at the pyrolysis temperature for preparing the rice husk biochar.

Sorption isotherms of BB41 onto rice husk biochar

Sorption isotherms of BR09 onto rice husk biochar

Thermodynamic studies are significant to know how the spontaneity, nature, and mechanisms in the adsorption process. The free energy change (ΔG), enthalpy change (ΔH), and entropy change (ΔS) were determined to estimate the inherent energy change and interaction mechanism. The relationships between ΔG, ΔH, and ΔS are as follows

where ΔG was calculated using Eq. (9). The values of KL be calculated from the relation ln qe/Ce at different solution temperatures of 35, 40, 45, and 50 °C, respectively. Whereas the values of ΔH and ΔS can be obtained respectively from the slope and intercept of Van’t Hoff plot of ln KL versus T−1. The results are shown in Table 4. The obtained △G values at all experimental temperatures were recorded as negative, which indicates that BB41 and BR09 had thermodynamic spontaneity and favours in adsorption onto rice husk biochar. The negative value of ΔH indicated the adsorption was exothermic reaction. Furthermore, the negative value of ΔS is due to decreased randomness at the solid/solution interface and no significant changes occur in the internal structure of the adsorbent through the adsorption process.

In adsorption process when the biochar was subjugated, it is possible to revive it through desorption of dye-bound molecules through subsequent sorption cycles. By this, one can reduce the functional cost and continuous adsorbent supply. Various elutants such as HCl, H2SO4, HNO3, NaOH, and deionized water were examined for their ability to desorb BB41- and BR09-bounded molecules from rice husk biochar. Figure 16 describes the desorption efficiencies of different chemicals utilized. Out of the three acidic elutant, 0.01 M HCl was good for cationic dyes explored with efficiencies of desorption above 99.6%. Deionized water was not able to elute biosorbed dye molecules, signifying the strong affinity that biochar possesses towards the cationic dyes. Similarly, the 0.01 M NaOH eluting solution exhibited low desorption tendency towards the dyes. The efficiency of elution from HCl remains unchanged until the S/L ratio = 5 and further improvement in the S/L ratio caused a significant reduction in elution efficiency for all systems. Rice husk biochar showed its ability to perform in all successive cycles in the first-round of dye sorption (Figs. 17 and 18). In Fig. 17, for example, at the end of the third cycle, the percentage decrease in BB41 consumption was 3% in relation to its first cycle. HCl acquired more than 99.1% reliability in desorption.

Desorption potential of rice husk biochar by different elutants

Adsorption of BB41 by rice husk biochar during multiple sorption desorption cycles with 0.01 M HCl as desorbent

Adsorption of BR09 by rice husk biochar during multiple sorption desorption cycles with 0.01 M HCl as desorbent

The electrostatic interactions are important in the adsorption of ionic dyes onto biochar, since the hydrophobicity nature and the presence of different functional groups on the dye molecules may affect the adsorption of dye onto rice husk biochar. The electrostatic interactions between negatively charged rice husk biochar and positively charged dye molecules may contribute to the adsorption process. Whereas the increased adsorption capacity of rice husk biochar onto BR09 attributed to the other possible mechanisms. The BR09 dye molecules can form hydrogen bonding with rice husk biochar. Since in the chemical structure of BR09 dye, there is only NH2 group as a functional group. Amino groups behave as electron donors to the aromatic benzene ring. Therefore, aromatic benzene rings in BR09 have a high electron density and hydrophobicity. Moreover, the possibility of hydrogen bonding formation between biochar and BR09 molecule shows an increase because of the NH2 groups on BR09. Therefore, adsorption of BR09 onto rice husk mainly results from the formation of hydrogen bonding and van der Waals forces. Similar results have been reported for the adsorption of some dyes onto natural clays [52, 53].

In this study, the greening biochar is derived from agricultural bio-waste of rice husk through slow pyrolysis (300 °C) operating condition. The availability of surface area, pores, and functional group matrix on the biochar surface favours the adsorption process. The adsorption process has been significantly influenced by adsorption parameters such as biochar dosage and pH value of the dye solution. The removal efficiency of BB41 and BR09 decreased with increasing adsorbate concentration. The Langmuir isothermal model could be represented well by the experimental data and its maximum potential for adsorption was estimated at approximately 17.596 mg g−1 (BB41) and 168.49 (BR09) mg g−1. The negative ΔG and ΔH value indicates the adsorptive removal of dyes by rice husk biochar was spontaneous and exothermic. The results indicate that the electrostatic force and hydrogen bonding play a major role in this adsorption, and this adsorption condition was adapted to pseudo-second-order model well.

Correspondence to Praveen Saravanan.

The authors declare no conflict of interest.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Received: 29 December 2020

Revised: 24 February 2021

Accepted: 02 March 2021

Published: 13 March 2021

DOI: https://doi.org/10.1007/s13399-021-01415-y


Latest report on Bone Cement & Glue Market size with growing CAGR of 6.3% by 2025

15 March, 2021
 

By Market Study Report

The latest Biochar Market Analysis report is comparative coverage of key player’s qualitative and quantitative information highlighting key market developments, challenges, competition and growth opportunities available in the Biochar Market. The report expects to provide front-line Biochar market intelligence and help business professionals to take growth-oriented decision for their organizations. Along with the Biochar Market analysis data this report incorporates and tracks emerging trends in the current industry.

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NC peach growers voting on assessment

15 March, 2021
 

The N.C. Peach Growers’ annual assessment period expired last year and peach growers are voting in whether to renew it this year.

The peach assessment was put forth by the N.C. Department of Agriculture, N.C. Peach Growers’ Society, and N.C. Cooperative Extension in 2014. It was voted upon and approved by peach growers and went into effect in January 2015.

The annual assessment was based on the number of peach trees per commercial orchard, with growers paying $100 if they have 100-500 trees, $250 if they have 501-2,500 trees and $350 if they have more than 2,500 trees would be assessed $350.

Anyone with fewer than 100 trees didn’t have to pay an assessment to the N.C. Peach Growers’ Society.

The money is used to promote the North Carolina peach industry through the NCDA Marketing Division as well as support research of North Carolina State University specialists who research diseases, damaging insects and cultural management related to peach production.

The peach assessment money has been used to develop new peach varieties, bacterial spot research, brown marmorated stink bug scouting and control, peach rootstock evaluation, BioChar soil improvement evaluation and orchard floor herbicide research and management.

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Japan Biochar Fine Granules Market – NeighborWebSJ

15 March, 2021
 

The global Biochar Fine Granules market was xx million US$ in 2020 and is expected to xx million US$ by the end of 2028, growing at a CAGR of xx% between 2021 and 2028. A new informative and analytical report on the global Biochar Fine Granules market has newly added by Contrive Datum Insights to […]


Global Biochar Fertilizer Market (2021-2026) with Top Growth Companies: Biogrow Limited …

16 March, 2021
 

The latest research report called Global Biochar Fertilizer Market Growth (Status and Outlook) 2020-2025 was published by Zeal Insider to guide the business. The report includes an overview and deep study of factors where market size, market share, different dynamics of the industry, market companies, regional analysis of the domestic markets, value chain analysis, consumption, demand, key application areas have been evaluated. The report focuses on the global major leading industry players of the global Biochar Fertilizer market involving information such as company profiles, product picture, and specification, price, capacity, cost, production, revenue, and contact information. It presents a complete evaluation of market trends, challenges, and standardization. The research study point to define and approximate the size of the market depending upon the business profile, product type, end-user, and top geographical regions.

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The analysts forecast the representation of this global Biochar Fertilizer market, supply, and demand, and also that the capacity, detailed investigation. This report contains the global market statistics and the dependent market is categorized by product types and application. This report recognizes the industrial base, productivity, manufacturers, and recent trends, features, which are the key requirements in the global market to enlarge the companies and promote financial growth. The report helps to understand the future outlook and prospects for the market forecast from 2020 to 2025 time-period.

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You will find the coverage of global Biochar Fertilizer market dynamics at the country level in the respective regional segments. The report comprises competitive analysis with a focus on key players and participants of the industry covering in-depth data related to the competitive landscape, positioning, company profiles, their key strategies, and product-profiling with a focus on market growth and potential. This report improves readers knowledge by studying important aspects including historical, current, and projected size of the global Biochar Fertilizer market with respect to both value (revenue) and volume (production & consumption).

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Biochar Market worth $699 million by 2026 and projected to rise at CAGR 8.6% from 2020 to 2030 …

16 March, 2021
 

The global Biochar market size is expected to gain market growth in the forecast period of 2020 to 2025, with a CAGR of 8.6% in the forecast period of 2020 to 2025 and will expected to reach USD 699 million by 2025, from USD 502.3 million in 2019.

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The global Biochar market is highly established due to the presence of key players. A large number of manufacturers have a significant share in their respective regions. The growth strategies adopted by the main players are

Covid-19 Impact:

Global financial market is in crises as Covid-19 spreads all over the world. The coronavirus epidemic is relevant and has extensive effects for the market. Many industries are facing a rising number of critical concerns such as supply chain disruption, increasing risk of recession, and a possible reduction in consumer spending. The possible Biochar market loss expected revenue, development scope with the help of new technologies are covered in a detailed manner.

The Biochar industry is severely competitive and fragmented due to the existence of several established players who engage in different marketing strategies to increase their Market Share. Suppliers operating in the market are profiled based on price, quality, brand, product differentiation, and product portfolio. Suppliers are increasingly focusing on product customization through customer interaction.

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I. A brief introduction to the abstract with technical keywords

II . TOC

III . Tables and Figures

IV. Competitive landscape and geographic segmentation

V. Methodology of innovation and future development developed by our experts.

The various factors that may drive the growth of the Biochar market in the current scenario as well as coming years have been discussed in detail. The interaction of the forces of demand and supply in this market, as well as the factors that affect them, has been analyzed. The internal and external factors that affect the market in terms of growth have been studied by this market study. The pricing policies used and the effect they have on consumer behavior have been studied for various regions of the Biochar market. The study carried out examines the before and after aspects of the market.

Covid-19 Impact:

Global financial market is in crises as Covid-19 spreads all over the world. The coronavirus epidemic is relevant and has extensive effects for the market. Many industries are facing a rising number of critical concerns such as supply chain disruption, increasing risk of recession, and a possible reduction in consumer spending. The possible Biochar market loss expected revenue, development scope with the help of new technologies are covered in a detailed manner.

Geographic segment covered in the report:

Reasons to buy:

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Table of Contents:

Implementation

Research Scope

Market segmentation

Investigation methodology

Definitions and assumptions

Executive Summary

Dynamics Dynamic Hemostasis Analyzers on the market

Market Drivers

Market Restrictions

Market Opportunities

Insights Key Ideas

Top Emerging Trends – For Top Countries

Latest Technological Advances

Regulatory Overview

SWOT analysis of the industry

Five Forces Analysis

In the end, the Biochar market report offers insight and expert analysis of key market trends and behaviors, along with an overview of the market data and major brands. Biochar market reports provide all the data easily digestible information to drive future innovation and power of your business for all entrepreneurs as well as established companies.

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Global Biochar Fertilizer Market (2021-2026) with Top Growth Companies: Biogrow Limited …

18 March, 2021
 

The Apex Market Research update on Global Biochar Fertilizer Market 2021-2026 Interesting fact and figures (CAGR, Global Size, Shares and Revenue with Business Growth Support and Market Value and Volume with Supply Demand Scenario and Pipeline Projects)

The Global Biochar Fertilizer Market Report 2021 is a research document consisting of comprehensive data that drives and helps evaluate all aspects of the Biochar Fertilizer business. It displays an overview of the baseline and structure of the Snorkeling Equipment market, summarizing its beneficial or prohibitive aspects responsible for regional and global evolution. It describes the current trends and position of Biochar Fertilizer by thoroughly probing various manufacturers, associations, suppliers, organizations, and industries in the Biochar Fertilizer market.

Apart from this, the Global Biochar Fertilizer Market 2021 report provides crucial details regarding categorization, assessed growth trends, distribution network, economic or trade terms, and many other vital elements related to Biochar Fertilizer. . Rapidly increasing spending revenue and innovative products offered by manufacturers are expected to drive the Snorkeling Gear industry during the forecast interval. A vast and growing customer base from the Snorkeling Gear industry creates an opportunity for producers to serve an important market and earn money.

Get the Sample copy of Biochar Fertilizer Market Research and Market Analysis @ https://www.apexmarketsresearch.com/report/biochar-fertilizer-market-942023/#sample

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Snorkeling Equipment Synopsis

This report considers the scope of Snorkeling Equipment (volume and value) by rivals, regions, product categories and end users, past data and forecast data. The document also examines the outlook for competition in the international market, the main market players, and ongoing trends. It even highlights upcoming opportunities and challenges, import ambiguities and obstructions, sales lines, and suppliers. The research paper further estimates the growth scale of Snorkeling Gear, as well as future trends around the world. Even more, it separates Snorkeling Equipment from type to purpose and from comprehensive analysis to key market players and predictions.

This report also provide In-depth studies of following point.

By Product Types segment on main Biochar Fertilizer market:

By Application this report listed main Biochar Fertilizer market:

Competitive Environment and Snorkeling Equipment Market Fragmentation:

The report focuses on the competitors that dominate the industry and outlines the Snorkeling Gear company profile. The analysis is based on SWOT analysis to reveal the competitive environment of the market around the world. Furthermore, the report includes an analysis of Biochar Fertilizer current development, market shares, unions, and investment grade with other top Biochar Fertilizer companies, financial agreements impacting the Biochar Fertilizer market.

Buy the latest 2021 edition of this report

Regional coverage (regional production, demand and forecast by countries, etc.):

North America (US, Canada, Mexico)

Europe (Germany, UK, France, Italy, Russia, Spain, etc.)

Asia-Pacific (China, India, Japan, Southeast Asia, etc.)

South America (Brazil, Argentina, etc.)

Middle East and Africa (Saudi Arabia, South Africa, etc.)

How will the report help your business grow?

1. The document provides statistical data on value (US dollars) and size (units) for the global Snorkeling Equipment industry between 2021 and 2026.

2. The report also tracks the main market rivals that will create and influence the Snorkeling Gear business to the greatest extent.

3. Extensive knowledge of the fundamental trends that affect each sector, although the greatest threat, the latest technologies and opportunities that could build the global market for Snorkeling Equipment both on offer and on offer.

4. The report helps the client to determine the substantial results of the main market players or rulers of the Snorkeling Equipment sector.

5. The study provides a vital five-year forecast for Snorkeling Gear developments, separated by commodity type, end-use group, and various regions around the world.

6. The data analysis presented in this report is based on and includes the extraction of both elementary and secondary assets.

Ultimately, the Conclusion section of the Snorkeling Equipment industry report expresses the opinion of the industry experts.

Do You Have Any Query Or Specific Requirement? Ask to Our Industry�Expert @https://www.apexmarketsresearch.com/report/biochar-fertilizer-market-942023/#inquiry

Report answers the following questions:

1. What are the factors driving the growth of the market?

2. What factors are inhibiting the growth of the market?

3. What are the future opportunities in the market?

4. What are the most dynamic companies and what are their recent developments within the Snorkeling Equipment market?

5. What key developments can be expected in the 2021-2026 period?

6. What are the main trends observed in the market?

About Us:

We at Apex Market Research aim to be global leaders in qualitative and predictive analysis as we put ourselves in the front seat for identifying worldwide industrial trends and opportunities and mapping them out for you on a silver platter. We specialize in identifying the calibers of the markets robust activities and constantly pushing out the areas which allow our clientele base in making the most innovative, optimized, integrated and strategic business decisions in order to put them ahead of their competition by leaps and bounds. Our researchers achieve this mammoth of a task by conducting sound research through many data points scattered through carefully placed equatorial regions.

Contact Us:

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Pune- 411027 India
tel: +91-8149441100 (GMT Office Hours)
tel: +17738002974
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Global Biochar Fertilizer Market Size & Share Forecast Report | Alexa Reports

18 March, 2021
 

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San Jose Indian American Teen Eshani Jha Takes 3rd Place in Regeneron Science Talent Search …

18 March, 2021
 

Indian American Eshani Jha, of San Jose, California, took third in the annual Regeneron Science Talent Search competition, winning a $150,000 prize for her development of a biochar filtration system that removes microplastics, pharmaceuticals, pesticides and heavy metals from drinking water. (Society for Science photo)

Gopal Krishna Goel, who took fourth place, received a $100,000 award for math research that made connections between two subjects regarding randomness and probability. (Society for Science photo)

Alay Shah finished seventh in the competition, and received a $70,000 award for the development of a diagnostic tool that tracks eye movement to identify neurological disorders. (Society for Science photo)

Indian American Eshani Jha, of San Jose, California, took third in the annual Regeneron Science Talent Search competition, winning a $150,000 prize for her development of a biochar filtration system that removes microplastics, pharmaceuticals, pesticides and heavy metals from drinking water. (Society for Science photo)

Gopal Krishna Goel, who took fourth place, received a $100,000 award for math research that made connections between two subjects regarding randomness and probability. (Society for Science photo)

Alay Shah finished seventh in the competition, and received a $70,000 award for the development of a diagnostic tool that tracks eye movement to identify neurological disorders. (Society for Science photo)

Regeneron Pharmaceuticals Inc. and Society for Science March 17 unveiled the winners of its annual – albeit virtual – Regeneron Science Talent Search competition, with Indian American Eshani Jha among the grand prize winners.

Jha, 17, of San Jose, California, took third place in the competition, winning $150,000 for her development of a biochar filtration system that removes microplastics, pharmaceuticals, pesticides and heavy metals (such as arsenic, cadmium, lead and mercury) from drinking water. Biochar has properties similar to charcoal but is much more sustainable and affordable because it can be made from biowastes.

Jha found that its effectiveness could be enhanced by increasing its surface area and carbon content and by adding certain chemical modifications to improve its ability to sequester contaminants. She estimates her filter would cost under a dollar per month, the joint news release said.

Yunseo Choi, 18, of Exeter, New Hampshire, won the $250,000 top award in the nation’s oldest science and math competition for high school seniors. Noah Getz, 17, of New York City, won the $175,000 second place prize.

Other Indian American notable winners included Gopal Krishna Goel, 17, of Portland, Oregon; and Alay Shah, 17, of Plano, Texas.

“Congratulations to the Regeneron Science Talent Search 2021 winners,” said Maya Ajmera, president and CEO of Society for Science, publisher of Science News and a 1985 Science Talent Search alumna.

“Throughout the COVID-19 pandemic, students like Yunseo have shown incredible resilience and perseverance in the face of new obstacles, conducting rigorous research, while navigating an uncertain world. These young people are the stewards of our future and I could not be more inspired by their hard work and pure grit,” Ajmera added. 

The Regeneron Science Talent Search provides a national stage for future leaders in STEM – bringing together the best and brightest young minds to present their original research ideas to leading scientists.

The competition celebrates the hard work, innovative thinking, leadership qualities and creativity of students who are bringing a fresh perspective to solving significant global challenges through rigorous research and cutting-edge discoveries, the release said.

The judging panel also considers how these research efforts, innovative thinking and leadership qualities demonstrate the students’ potential to become future leaders in critical STEM fields. 

Goel, who took fourth place, received a $100,000 award for math research that made connections between two subjects regarding randomness and probability, the release said.

Prior work by others had shown that a connection existed, but Gopal indicated that this connection is much more general in nature. He believes his work can be useful to researchers in the fields of nuclear physics, quantum field theory and meteorology, and hopes it will aid in the search for the true nature of quantum gravity, more commonly known as “the theory of everything,” it said.

Shah finished seventh, and received a $70,000 award for the development of a diagnostic tool that tracks eye movement to identify neurological disorders that he hopes can become a low-cost alternative to MRIs.

Shah’s tool tracks pupil movement and gaze with an infrared camera and uses software he wrote. The data is then analyzed using deep learning algorithms to identify abnormal eye reflexes. In clinical tests of patients with Parkinson’s, dementia, multiple sclerosis and ADHD, Shah found unique eye patterns associated with each condition, it said.

“Congratulations to this year’s winners of the Regeneron Science Talent Search. Your curiosity and passion for science – as well as your unique genius for it – has now been validated,” said Dr. George D. Yancopoulos, co-founder, president and chief scientific officer of Regeneron.

Each finalist not in the top 10 received $25,000. These students will join the ranks of other Science Talent Search alumni, many of whom have gone on to have world-changing careers in STEM fields, and some of whom have earned the most esteemed honors in science and math, including the Nobel Prize, National Medal of Science and MacArthur Foundation Fellowships.

In total, Regeneron awarded $3.1 million in prizes through the Regeneron Science Talent Search 2021, including $2,000 to each of the top scholars and their schools, the statement said.

Historically held in person in Washington, D.C., this is the second year in its 80-year history that the competition took place virtually to keep the finalists and their families safe during the ongoing pandemic.

Forty finalists were honored during a virtual winners’ award ceremony. More than $1.8 million was awarded to the finalists, who were evaluated based on their projects’ scientific rigor, their exceptional problem-solving abilities and their potential to become scientific leaders, the release said.

(See India-West’s article on the Indian American finalists here: https://bit.ly/3lswpyJ)

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Role of biochar, compost and plant growth promoting rhizobacteria in the management of tomato …

19 March, 2021
 

COVID-19 is an emerging, rapidly evolving situation.

Public health information (CDC)

Research information (NIH)

SARS-CoV-2 data (NCBI)

Prevention and treatment information (HHS)

The individual role of biochar, compost and PGPR has been widely studied in increasing the productivity of plants by inducing resistance against phyto-pathogens. However, the knowledge on combined effect of biochar and PGPR on plant health and management of foliar pathogens is still at juvenile stage. The effect of green waste biochar (GWB) and wood biochar (WB), together with compost (Comp) and plant growth promoting rhizobacteria (PGPR; Bacillus subtilis) was examined on tomato (Solanum lycopersicum L.) physiology and Alternaria solani development both in vivo and in vitro. Tomato plants were raised in potting mixture modified with only compost (Comp) at application rate of 20% (v/v), and along with WB and GWB at application rate of 3 and 6% (v/v), each separately, in combination with or without B. subtilis. In comparison with WB amended soil substrate, percentage disease index was significantly reduced in GWB amended treatments (Comp + 6%GWB and Comp + 3%GWB; 48.21 and 35.6%, respectively). Whereas, in the presence of B. subtilis disease suppression was also maximum (up to 80%) in the substrate containing GWB. Tomato plant growth and physiological parameters were significantly higher in treatment containing GWB (6%) alone as well as in combination with PGPR. Alternaria solani mycelial growth inhibition was less than 50% in comp, WB and GWB amended growth media, whereas B. subtilis induced maximum inhibition (55.75%). Conclusively, the variable impact of WB, GWB and subsequently their concentrations in the soil substrate was evident on early blight development and plant physiology. To our knowledge, this is the first report implying biochar in synergism with PGPR to hinder the early blight development in tomatoes.

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Evaluation of Modified Boehm Titration Methods for Use with Biochars – ProQuest Research Library

19 March, 2021
 

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Nature Communications on Twitter: "Biochar sequestration deployment in China could contribute …

19 March, 2021
 

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Sugarcane bagasse biochar increases soil carbon sequestration and yields of maize and …

20 March, 2021
 

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Albert Ferrari's tweet – "Join our #FSRInsights on #biochar where @stefanoverde8 and …

21 March, 2021
 


Biochar Market, Share, Growth, Trends and Forecast to 2028: Biokol, Biomass Controls, LLC …

21 March, 2021
 

The latest report on Biochar Market relies on a concrete research methodology focusing on both primary as well as secondary sources. The report is prepared by relying on primary sources including interviews of the company executives & representatives and accessing official documents, websites, and press releases of the private and public companies. Additionally, this report includes market analysis from several global experts and analysts who have in-depth knowledge about the Biochar Market. To ensure a complete framework of the market, it also adopts several research tools such as statistical surveying for SWOT analysis, PESTLE analysis, predictive analysis, and real-time analytics.

Download Sample PDF (120 Pages PDF with Insights): https://www.adroitmarketresearch.com/contacts/request-sample/698?utm_source=pr

This intelligence and 2028 forecasts Biochar industry report further exhibits a pattern of analysing previous data sources gathered from reliable sources and set a precedence growth trajectory for the Biochar market. The report also focuses on a comprehensive market revenue streams along with growth patterns, analytics focused on market trends, and the overall volume of the market.

Moreover, the Biochar report describes the market division based on various parameters and attributes that are based on geographical distribution, product types, applications, etc. The market segmentation clarifies further regional distribution for the Biochar market, business trends, potential revenue sources, and upcoming market opportunities.

Key players profiled in the Biochar market include:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

Get Customization on this Research Report: https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=pr

Biochar Market Report Highlights:

* A comprehensive overview of the parent market & substitute market of Biochar.
* Changing market dynamics in the Biochar industry (COVID & Economic Impact Analysis).
* In-depth market segmentation (Trends, Growth with Historical & Forecast Analysis).
* Recent industry trends and development activity.
* Competitive landscape (Heat Map Analysis for Emerging Players & Market Share Analysis for Major Players along with detailed Profiles).

The depth idea of the competitors is studied by using primary and secondary research techniques which gives a clear idea about the global competition to seek the best solutions. This report gives extensive valuable data that gives a clear idea about the current scenario of the Biochar market during the forecast period 2021 To 2026.

This report also provides In-depth studies of the following points.

By Product Type The Biochar Market Segmented as follows:

by Technology (Pyrolysis, Gasification and Others)

By Application, this report listed the main Biochar Market:

by Application (Agriculture and Others)

Geographically, the detailed analysis of consumption, revenue, Biochar market share and growth rate, historic and forecast of the following regions are:

* North America [United States, Canada, Mexico]
* South America [Brazil, Argentina, Columbia, Chile, Peru]
* Europe [Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland]
* Middle East & Africa [GCC, North Africa, South Africa]
* Asia-Pacific [China, Southeast Asia, India, Japan, Korea, Western Asia]

How will this report benefit potential stakeholders?

It offers figurative estimations for upcoming years based on recent developments and historic data. For gathering information and estimating revenue for all segments, researchers have used top-down and bottom-up approaches. Based on data collected from primary and secondary research and trusted data sources the report will help both existing and new aspirants for the Biochar market to figure out and study the market’s needs, market size, and competition.

In today’s competitive world you need to think one step ahead to pursue your competitors, our research offers reviews about key players, major collaborations, union & acquisitions along with trending innovation and business policies to present a better understanding to drive the Biochar business in the correct direction.

In conclusion, the Biochar Market report is a genuine source for accessing the research data which is projected to exponentially grow your business. The report provides information such as economic scenarios, benefits, limits, trends, market growth rates, and figures. SWOT analysis and Porter’s Five analysis is also incorporated in the report.

Table of Content:

Chapter 1 Introduction
Chapter 2 Research Methodology
Chapter 3 Executive Summary
Chapter 4 Market Outlook
Chapter 5 Biochar Market by Type
Chapter 6 Biochar Market by Application
Chapter 7 Biochar Market By Region
Chapter 8 Competitive Landscape
Chapter 9 Company Profiles

Do you have any query or specific requirement? Ask to our industry expert at: https://www.adroitmarketresearch.com/contacts/enquiry-before-buying/698?utm_source=pr

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Biochar Sem (Page 1) – Line.17QQ.com

21 March, 2021
 

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Youtube biochar inoculation

23 March, 2021
 

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,, Zilhadia and H, Yahdiana and Jaswir, Irwandi (2018) Characterization and functional properties of gelatin extracted from goatskin. International Food Research Journal, 25 (1). pp. 275-281.

Перевод слова inoculation, американское и британское произношение, транскрипция to give an inoculation — делать прививку skin inoculation — кожная инокуляция instant inoculation…

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Zulkipli, Zulfatihah (2016) Effects of rice husk biochar on growth performance of MRIA 1 and nutrient content in soil at seedling stage / Zulfatihah Zulkipli. [Student Project] (Unpublished) Ismail, Isma Syahril (2016) Effects of sound stimuli on the phenotypic and genotypic characteristics of Staphylococcus aureus / Isma Syahril Ismail.

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For the pre-inoculation treatments (i.e., fungicide applied before the fungus), the fungicides all reduced disease by 80 to 95 per cent, while fungicide treatments at seven or 14 days after …

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Bambusoideae can be integrated into home,forest and community farms to rejuvenate poor soils increasing their fertility as well as providing extra food for humans,pets and livestock.It will also be pivotal making once barren or poor soils and tracts of land more suited to farming after planted for biochar sequestration projects have finished as …

Asap, Audrey (2017) Effect of chicken litter biochar on phosphorus availability in acid soil and yield of zea mays L. Masters thesis, Universiti Putra Malaysia. Abdul Majid, Mohamad Yazid (2017) Etika Profetik dalam novel Najib al-Kilani.

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LEBRUN M, MIARD F, BUCCI A, TRUPIANO D, NANDILLON R, NACLERIO G, SCIPPA GS, MORABITO D, BOURGERIE S (2020) Evaluation of direct and biochar carrier-based inoculation of Bacillus sp. on As-and Pb-contaminated technosol: effect on metal (loid) availability, Salix viminalis growth, and soil microbial diversity/activity.

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inoculationの 品詞ごとの意味や使い方. inoculationの 学習レベル. レベル:10英検:1級以上の単語学校レベル:大学院以上の水準.

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Nov 25, 2020 · YouTube has suspended the One America News Network (OANN) for sharing misinformation about a Covid-19 "cure". … Dublin, Nov. 25, 2020 (GLOBE NEWSWIRE) — The "Biochar Market, Size, Share …

Dec 01, 2020 · They believe that the music industry group went too far and started to republish copies of the code everywhere. Over the past several days, we have seen hundreds of new forks and copies appear online. These were also posted to GitHub, where YouTube-DL forks remain easy to find and continue to be uploaded. The code was also posted in some places …

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Enter biochar. Here charcoal is made biologically active and nutrient rich – essentially pre-charging it with the nutrition and beneficial microbes needed to make it an asset in the soil right away. There are many ways to charge charcoal and create biochar, or terra preta.

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Nov 25, 2020 · YouTube has suspended the One America News Network (OANN) for sharing misinformation about a Covid-19 "cure". … Dublin, Nov. 25, 2020 (GLOBE NEWSWIRE) — The "Biochar Market, Size, Share … In 2015, regardless of site or biochar application, no mulch was associated with the highest weed biomass (36.7 g m-2) compared with plots treated with hay, hemp, or paper mulch (5.1, 0.9, and 5.8 g m-2, respectively). During 2016, the production year, weeds were not removed.

Biochar is an amazing substance that provides massive amounts of pore space for microbes to live and thrive. Learn how to load the biochar with healthy micro…

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Google Наука предоставя лесен начин за обширно търсене на научна литература. Търсете в голямо разнообразие от дисциплини и източници – статии, тези, книги, резюмета и съдебни…Keep adding biochar to coop until it is time to clean out. Then pile up biochar and let cure. 4.) Pee on it. Seriously. This works. You can use a 5 gallon bucket with a few holes in the bottom. 5.) 4 parts biochar, 1 part micronized rock powder, 1 part worm castings, 1/2 part flour or molasses (microbe food). Mix together thoroughly and evenly.

In Task 4.1. DLO will set up microbiological strategy and selection of bacterial inoculants and development of inoculation technology and protocol for improving the soil-health and disease suppression potential of the compost. DLO will also select, product- and quality testing of bacterial inoculants.

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Youtube biochar inoculation – artevetrosegariu.it

23 March, 2021
 

Required Cookies & Technologies. Some of the technologies we use are necessary for critical functions like security and site integrity, account authentication, security and privacy preferences, internal site usage and maintenance data, and to make the site work correctly for browsing and transactions. Inoculation, process of producing immunity and method of vaccination that consists of introduction of inoculation. People receiving smallpox inoculations in Dahomey (now Benin) during the global…


Outlook on the Biochar Global Market to 2025 – Cumulative Impact of COVID-19

23 March, 2021
 

DUBLIN, March 23, 2021 /PRNewswire/ — The "Biochar Market Research Report by Row Material (Biochar Source Material and Soil/Substrate), by Feedstock (Agricultural Waste, Animal Manure, and Woody Biomass), by Technology, by Application – Global Forecast to 2025 – Cumulative Impact of COVID-19" report has been added to ResearchAndMarkets.com's offering.

The Global Biochar Market is expected to grow from USD 1,594.47 Million in 2020 to USD 3,305.51 Million by the end of 2025.

This research report categorizes the Biochar to forecast the revenues and analyze the trends in each of the following sub-markets:

Based on Row Material, the Biochar Market is examined across Biochar Source Material and Soil/Substrate. The Biochar Source Material further studied across Citrus wood, Gasifed Rice Hulls, Hardwood, and wheat Straw. The Soil/Substrate further studied across Coconut Fiber, Peat, Peat Moss, Pine Bark, and Soil.

Based on Feedstock, the Biochar Market is examined across Agricultural Waste, Animal Manure, and Woody Biomass.

Based on Technology, the Biochar Market is examined across Gasification and Pyrolysis.

Based on Application, the Biochar Market is examined across Agriculture, Energy Production, and Water & Waste Water Treatment.

The Asia-Pacific is projected to witness the highest growth during the forecast period

Based on Geography, the Biochar Market is examined across Americas, Asia-Pacific, and Europe, Middle East & Africa. The Americas region surveyed across Argentina, Brazil, Canada, Mexico, and United States. The Asia-Pacific region surveyed across Australia, China, India, Indonesia, Japan, Malaysia, Philippines, South Korea, and Thailand. The Europe, Middle East & Africa region surveyed across France, Germany, Italy, Netherlands, Qatar, Russia, Saudi Arabia, South Africa, Spain, United Arab Emirates, and United Kingdom. The Americas commanded the largest size in the Biochar Market in 2020. On the other hand, the Asia-Pacific is expected to grow at the fastest CAGR during the forecast period.

Company Usability Profiles:

The report deeply explores the recent significant developments by the leading vendors and innovation profiles in the Global Biochar Market including 3R ENVIRO TECH Group, Agri-Tech Producers, LLC, Airex Energy, Aries Clean Energy, ArSta Eco, Biochar Products, Inc., Biochar Supreme, LLC, Carbon Gold, Clean Fuels B.V., Cool Planet Energy Systems Inc., Diacarbon Energy Inc., Earth Systems PTY. LTD., Pacific Pyrolysis, Phoenix Energy, The Biochar Company, and Vega Biofuels, Inc..

Cumulative Impact of COVID-19:

COVID-19 is an incomparable global public health emergency that has affected almost every industry, so for and, the long-term effects projected to impact the industry growth during the forecast period. the ongoing research amplifies the research framework to ensure the inclusion of underlaying COVID-19 issues and potential paths forward. The report is delivering insights on COVID-19 considering the changes in consumer behavior and demand, purchasing patterns, re-routing of the supply chain, dynamics of current market forces, and the significant interventions of governments. The updated study provides insights, analysis, estimations, and forecast, considering the COVID-19 impact on the market.

FPNV Positioning Matrix:

The FPNV Positioning Matrix evaluates and categorizes the vendors in the Biochar Market on the basis of Business Strategy (Business Growth, Industry Coverage, Financial Viability, and Channel Support) and Product Satisfaction (Value for Money, Ease of Use, Product Features, and Customer Support) that aids businesses in better decision making and understanding the competitive landscape.

Competitive Strategic Window:

The Competitive Strategic Window analyses the competitive landscape in terms of markets, applications, and geographies. The Competitive Strategic Window helps the vendor define an alignment or fit between their capabilities and opportunities for future growth prospects. During a forecast period, it defines the optimal or favorable fit for the vendors to adopt successive merger and acquisition strategies, geography expansion, research & development, and new product introduction strategies to execute further business expansion and growth.

The report provides insights on the following pointers:
1. Market Penetration: Provides comprehensive information on the market offered by the key players
2. Market Development: Provides in-depth information about lucrative emerging markets and analyzes the markets
3. Market Diversification: Provides detailed information about new product launches, untapped geographies, recent developments, and investments
4. Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, and manufacturing capabilities of the leading players
5. Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and new product developments

The report answers questions such as:
1. What is the market size and forecast of the Global Biochar Market?
2. What are the inhibiting factors and impact of COVID-19 shaping the Global Biochar Market during the forecast period?
3. Which are the products/segments/applications/areas to invest in over the forecast period in the Global Biochar Market?
4. What is the competitive strategic window for opportunities in the Global Biochar Market?
5. What are the technology trends and regulatory frameworks in the Global Biochar Market?
6. What are the modes and strategic moves considered suitable for entering the Global Biochar Market?

Key Topics Covered:

1. Preface
1.1. Objectives of the Study
1.2. Market Segmentation & Coverage
1.3. Years Considered for the Study
1.4. Currency & Pricing
1.5. Language
1.6. Limitations
1.7. Stakeholders

2. Research Methodology
2.1. Research Process
2.1.1. Define: Research Objective
2.1.2. Determine: Research Design
2.1.3. Prepare: Research Instrument
2.1.4. Collect: Data Source
2.1.5. Analyze: Data Interpretation
2.1.6. Formulate: Data Verification
2.1.7. Publish: Research Report
2.1.8. Repeat: Report Update
2.2. Research Execution
2.2.1. Initiation: Research Process
2.2.2. Planning: Develop Research Plan
2.2.3. Execution: Conduct Research
2.2.4. Verification: Finding & Analysis
2.2.5. Publication: Research Report
2.3. Research Outcome

3. Executive Summary
3.1. Introduction
3.2. Market Outlook
3.3. Row Material Outlook
3.4. Feedstock Outlook
3.5. Technology Outlook
3.6. Application Outlook
3.7. Geography Outlook
3.8. Competitor Outlook

4. Market Overview
4.1. Introduction
4.2. Cumulative Impact of COVID-19

5. Market Insights
5.1. Market Dynamics
5.1.1. Drivers
5.1.1.1. Globally increasing demand for the product in organic farming
5.1.1.2. Increasing consumption in livestock feed and awareness pertaining to the benefits of biochar
5.1.1.3. Increasing use to improves soil fertility
5.1.2. Restraints
5.1.2.1. Undefined standard procedure resulting in highly variable Biochar pH
5.1.3. Opportunities
5.1.3.1. Energy production and greenhouse gas remediation
5.1.3.2. Wide commercial production
5.1.3.3. Collaboration to deliver technology-oriented services and financing services for biochar projects
5.1.4. Challenges
5.1.4.1. Potential emission of toxins
5.1.4.2. Limited Social acceptance
5.2. Porters Five Forces Analysis
5.2.1. Threat of New Entrants
5.2.2. Threat of Substitutes
5.2.3. Bargaining Power of Customers
5.2.4. Bargaining Power of Suppliers
5.2.5. Industry Rivalry

6. Global Biochar Market, By Row Material
6.1. Introduction
6.2. Biochar Source Material
6.2.1. Citrus wood
6.2.2. Gasifed Rice Hulls
6.2.3. Hardwood
6.2.4. wheat Straw
6.3. Soil/Substrate
6.3.1. Coconut Fiber
6.3.2. Peat
6.3.3. Peat Moss
6.3.4. Pine Bark
6.3.5. Soil

7. Global Biochar Market, By Feedstock
7.1. Introduction
7.2. Agricultural Waste
7.3. Animal Manure
7.4. Woody Biomass

8. Global Biochar Market, By Technology
8.1. Introduction
8.2. Gasification
8.3. Pyrolysis

9. Global Biochar Market, By Application
9.1. Introduction
9.2. Agriculture
9.3. Energy Production
9.4. Water & Waste Water Treatment

10. Americas Biochar Market
10.1. Introduction
10.2. Argentina
10.3. Brazil
10.4. Canada
10.5. Mexico
10.6. United States

11. Asia-Pacific Biochar Market
11.1. Introduction
11.2. Australia
11.3. China
11.4. India
11.5. Indonesia
11.6. Japan
11.7. Malaysia
11.8. Philippines
11.9. South Korea
11.10. Thailand

12. Europe, Middle East & Africa Biochar Market
12.1. Introduction
12.2. France
12.3. Germany
12.4. Italy
12.5. Netherlands
12.6. Qatar
12.7. Russia
12.8. Saudi Arabia
12.9. South Africa
12.10. Spain
12.11. United Arab Emirates
12.12. United Kingdom

13. Competitive Landscape
13.1. FPNV Positioning Matrix
13.1.1. Quadrants
13.1.2. Business Strategy
13.1.3. Product Satisfaction
13.2. Market Ranking Analysis
13.3. Market Share Analysis
13.4. Competitor SWOT Analysis
13.5. Competitive Scenario
13.5.1. Merger & Acquisition
13.5.2. Agreement, Collaboration, & Partnership
13.5.3. New Product Launch & Enhancement
13.5.4. Investment & Funding
13.5.5. Award, Recognition, & Expansion

14. Company Usability Profiles
14.1. 3R ENVIRO TECH Group
14.2. Agri-Tech Producers, LLC
14.3. Airex Energy
14.4. Aries Clean Energy
14.5. ArSta Eco
14.6. Biochar Products, Inc.
14.7. Biochar Supreme, LLC
14.8. Carbon Gold
14.9. Clean Fuels B.V.
14.10. Cool Planet Energy Systems Inc.
14.11. Diacarbon Energy Inc.
14.12. Earth Systems PTY. LTD.
14.13. Pacific Pyrolysis
14.14. Phoenix Energy
14.15. The Biochar Company
14.16. Vega Biofuels, Inc.

15. Appendix

For more information about this report visit https://www.researchandmarkets.com/r/hwbvp9

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Biochar – Times News Express

24 March, 2021
 


Effectiveness of Biopelet Combination of Biochar, Chicken Manure and Fish Waste To … – IOPscience

24 March, 2021
 

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Most of the activities of the use of organic fertilizers and natural additions of organic matter in agricultural intensification fields in Indonesia have not been able to compensate for the rate of decline in soil organic matter by the decomposition process. Biochar has high C levels and has The mean residence time (MRT) in long period in the soils. It was proven that biochar application may increase soil Carbon but has not been able to increase the production of plant. Therefore the use of biochar combined with organic waste rich in nutrients is important to be developed. The purpose of this study was to determine the effectiveness of some biochar compositions with sugar cane, chicken manure, fish waste in the form of biopelet fertilizer on improving the chemical properties of sandy soils and the vegetative growth of soybean plants. This study used a Randomized Completely Block Design (RCBD) with 2 factors, namely: the first factor (B): the composition of Biochar consisted of 3 levels, namely: 1) 70% biochar, 15% chicken manure, 15% fish waste (B1), 2) 50 % biochar, 25% chicken manure, 25% fish waste (B2), 3) 20% biochar, 40% chicken manure, 40% fish waste and the second factor were (D): The dose of biopelet fertilizers, consists of 4 levels, namely: 1) Control (D0 ), 2) 2.5 tons.ha-1 (D1), 3) 5 tons.ha-1 (D2), 4) 10 tons.ha-1 (D3). The results showed that the addition of biopelet fertilizer can effectively improve soil chemical properties (pH, C-organic, and CEC) and the availability of NPK of the sandy soil. The effectiveness of increasing the N-total of soil varies by an average of 32.42 to 75.79%; followed by available P varies between 17.46 to 40.69%, and Kexch between 8.7 to 25.67%. Improvement of soil chemical properties and the availability of NPK by biopelet fertilizer applications could increase plant growth, but reduce the weight of root nodules.

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Post-pandemic Era-Global Biochar Market Analysis 2020, With Top Companies, Production …

25 March, 2021
 

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Exhaustive Study on Biochar Fuel Market to 2026 – NeighborWebSJ

26 March, 2021
 

This report studies the Biochar Fuel industry based on the type, application, and region. The report also analyzes factors such as drivers, restraints, opportunities, and trends affecting the market growth. It evaluates the opportunities and challenges in the market for stakeholders and provides particulars of the competitive landscape for market leaders.

This study considers the Biochar Fuel value generated from the sales of the following segments:

The key manufacturers covered in this report: Breakdown data in in Chapter:- , Biochar Fuel Products, Agri-Tech Producers, Hawaii Biochar Fuel, Pacific Biochar Fuel, The Biochar Fuel Company (TBC), Cool Planet Energy Systems, Walking Point, Ec6Grow, RAUCH INTERNATIONAL, Diacarbon Energy, Vega Biofuels

Market Segmentation: Global Biochar Fuel Market

– The market is based on product, end-user, and geographical segments.
– Based on type, the market is segmented into , Fine Biochar Fuel Powder, Granular Biochar Fuel, Big Chip Biochar Fuel,
– Based on end-user, the market is segmented into , Agriculture, Energy Production, Environmental Protection, Others,

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The report studies micro-markets concerning their growth trends, prospects, and contributions to the total Biochar Fuel market. The report forecasts the revenue of the market segments concerning four major regions, namely, Americas, Europe, Asia-Pacific, and Middle East & Africa.

The report studies Biochar Fuel Industry sections and the current market portions will help the readers in arranging their business systems to design better products, enhance the user experience, and craft a marketing plan that attracts quality leads, and enhances conversion rates. It likewise demonstrates future opportunities for the forecast years 2020-2026.

The report is designed to comprise both qualitative and quantitative aspects of the global industry concerning every region and country basis.

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The report has been prepared based on the synthesis, analysis, and interpretation of information about the Biochar Fuel market 2020 collected from specialized sources. The competitive landscape chapter of the report provides a comprehensible insight into the market share analysis of key market players. Company overview, SWOT analysis, financial overview, product portfolio, new project launched, recent market development analysis are the parameters included in the profile.

The last part investigates the ecosystem of the consumer market which consists of established manufacturers, their market share, strategies, and break-even analysis. Also, the demand and supply side is portrayed with the help of new product launches and diverse application industries. Various primary sources from both, the supply and demand sides of the market were examined to obtain qualitative and quantitative information.

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Biochar Market 2021 Projection , Share, Size, Demand, Opportunities, Sale Area, Revenue …

26 March, 2021
 

The research report based on the Biochar market is a full documentation of crucial data on various parameters associated with the industry on global level. The research report analyzes each and every market related aspect in detail and also provides numerical data coupled with it. The Performance of the industry is narrowly analyzed in the study based on Biochar sector. The market report contains the past statistics along with the future prediction for valuation of the industry with number to support the information. The data provided in the report accurate and reliable. The growth pattern of the industry that has been being followed by the numerous vendors and manufacturers across the globe is deeply studied in the market study. The study of all the factors restraining and driving this growth is also added in the Biochar market research report.

Get PDF Sample Report of Biochar (COVID-19 Version) Market 2021, Click Here @ https://www.adroitmarketresearch.com/contacts/request-sample/698?utm_source=Pallavineigh

Some of the Important and Key Players of the Global Biochar Market:

Biokol, Biomass Controls, LLC, Carbon Industries Pvt Ltd., Charcoal House, Anaerob Systems, Algae AquaCulture Technologies, CECEP Golden Mountain Agricultural Science And Technology, EarthSpring Biochar/Biochar Central, Energy Management Concept, 3R Environmental Technology Group and Renargi

The research report based on the Biochar market offers a comprehensive overview of the all the social, political, environmental factors that can influence the growth of the industry on global level. The research also provides insightful data on the trends and techniques being introduced in the global Biochar industry. The adoption of these trends is obligatory to survive in the intense competition in the Biochar industry. The market study offers an in-depth discussion on the important industry events took place in the industry over the years. The detailed information on all the digital advancements made in the Biochar sectors is provided in the Biochar market study report as it plays a crucial role in the development of every industry. The details regarding the tools and machinery being used by the industry players across the globe is included in the research report.

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Biochar Market Segmentation

Type Analysis of Biochar Market:

by Technology (Pyrolysis, Gasification and Others)

Applications Analysis of Biochar Market:

by Application (Agriculture and Others)

Highlights of the report:

1. The published report is made using a vigorous and thorough research methodology and Adroit Market Research is also known for its data accuracy and granular market reports.
2. A whole picture of the competitive scenario of the Biochar market is illustrated by this report.
3. The report consists of a vast amount of data about the recent product and technological developments in the markets.
4. The report also includes deep analysis regarding the impact of these advancements on the future of market growth.
5. Adroit Market Research is keeping a track of the market since 2018 and has integrated the necessary historical data & analysis into the research report. Therefore, any additional data requirement can be easily fulfilled.
6. The insights in the report are easy to understand and include a graphical representation of the numbers in the form of histograms, bar graphs, pie charts, etc.
7. Components such as market drivers, restraints, challenges, and opportunities for Biochar market are elaborated in detail.
8. It also presents a complete assessment of the anticipated behavior about the future market and continuously transforming market scenario.
9. Making an informed business decision is a tricky job; this report gives several strategic business methodologies to support you in making those decisions.

Browse the complete report Along with TOC @ https://www.adroitmarketresearch.com/industry-reports/biochar-market?utm_source=Pallavineigh

The report includes thorough discussion on several market analysis techniques used to obtain vital data on all the market parameters. The development strategies are deeply studied in the market study. The valuable information related to the major aspects of the Biochar industry such as revenues, sales, profits, production, costs, etc. is provided in the Biochar market report. In addition to that the report also studies numerous acquisitions, mergers, collaborations, etc. in the industry over the years. Furthermore, the demands of the Biochar industry at different times are studied in detail in the Biochar market research report. The research report offers in detail study of investment opportunities available in the Biochar sector. Along with that the risks and challenges coupled with the industry are also analyzed in the market report.

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3. Making an informed business decision is a tough job; the Biochar report offers several strategic business methodologies to support you in making those decisions.
4. Industry experts and research analysts have worked extensively to prepare the research report which will help you to give that extra edge in the competitive market.
5. The market research report can be customized according to your needs. This means that Adroit Market Research can cover a particular product, application, or company can provide a detailed analysis in the report. You can also purchase a separate report for a specific region.

Key questions answered in the report:

1. What will the market growth rate of Biochar market?
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5. What are sales, revenue, and price analysis of top manufacturers of Biochar market?
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8. What are sales, revenue, and price analysis by types and applications of Biochar market?

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Effect of three different types of biochars on eco-physiological response of important agroforestry …

26 March, 2021
 

COVID-19 is an emerging, rapidly evolving situation.

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Research information (NIH)

SARS-CoV-2 data (NCBI)

Prevention and treatment information (HHS)

Soil reclamation through afforestation along with soil amendments is one of the most suitable practices to combat soil salinity while the use of biochar may have potential to ameliorate salt-affected soils. This study was designed to check effects of different biochars on the physico-chemical properties of soil and characteristics of three important agroforestry trees species: Eucalyptus camaldulensis, Vachellia nilotica and Dalbergia sissoo, in saline soils. Farmyard manure biochar (FYMB), sugarcane bagasse biochar (SCB), woodchips biochar (WCB) were applied (6% w/w) to check their effects on plants under saline conditions. Results revealed that FYMB was the best for promoting all growth and physiological parameters of three tree species while E. camaldulensis was the best suited species. Different types of biochars influenced the growth of agroforestry species differently as SCB showed better results for D. sissoo as compared to WCB but for V. nilotica and WCB was more effective than SCB. Trend of growth and other physiological attributes for E. camaldulensis and V. nilotica was FYMB > WCB > SCB > control whereas D. sissoo showed trend as FYMB > SCB > WCB > control. Biochar was helpful in improving physicochemical characteristics of saline soils by lowering values of soil EC and SAR but type of biochar has a differential effect on tree growth.Novelty statementBiochar may be a potential source for the amelioration of salt affected soils while less is known about the effects of different types of biochars on the soil and eco-physiological response of important agroforestry trees species in saline soils. In this study, although all types of biochar ameliorated the soil conditions and enhanced the plant growth, but farmyard manure biochar was the most efficient treatment among three types of used biochars.

Keywords: Salinity; afforestation; agroforestry; soil degradation; soil reclamation; tree growth.

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14 Forest Projects Across Montana Awarded State Funding

26 March, 2021
 

Gov. Greg Gianforte announced Friday that the state awarded $4.5 million to 14 forest projects meant to bolster the timber industry, restore forest health and reduce wildfire risk.

The projects funded fall under the Montana Forest Action Plan, a new document that will guide forestry in the state for the next decade.

The state received applications for 47 projects, and the 14 winners range in size from 1 acre to thousands of acres. The projects are mostly in Western Montana, but span all the way out to Carter County in the far southeastern corner of the state.

In terms of forestry, the projects run the gamut from fuels reduction in the wildland urban interface, to cutting down trees farther out in forests, to restoring nonforested ecosystems.

Here are a couple examples:

Sean Claffey, one of the winners, and conservation coordinator for the Southwest Montana Sagebrush Partnership in Dillon, said the funding will supercharge their efforts on more than 3,000 acres to restore sagebrush steppe by removing pines, which have expanded into the ecosystem in large part due to a century of putting out fires.

“This is gonna allow us to really scale up and really maximize the value of investments that have been made over the last three or four years here in southwest Montana,” Claffey said.

He said the group requested about $450,000 to pay for the work. In most of the project area, he said the group will work with the Bureau of Land Management to conduct prescribed burns after the trees have been removed. But in part of it, Claffey said the state’s funding will help fuel innovation in building a market for smaller-diameter trees that would ordinarily be too thin to earn a profit for mills.

The funding will also enable another project, called Wildfire Adapted Missoula, to treat more than 700 acres of forest near the Potomac Valley. There’s a patchwork of land ownership there, including private and The Nature Conservancy. 

“But that’s the nice part about this grant,” Michael Albritton with the BLM said, “is it’s treating everyone’s side of the fence.”

He said the interagency team requested just shy of $400,000. Trees in the area are young, thin and dense, and ordinarily wouldn’t have much commercial value. So Albritton said the project will be a testing ground for a forest product that utilizes those thin trees and slash called “biochar.”

“We’re hoping that this demonstration of the biochar will hopefully get some sort of biochar industry going in Western Montana.”

Mike Garrity with the conservation group Alliance for the Wild Rockies said the projects awarded funding are a mixed bag. He said he fully supports some of the projects on the docket. But he said others that prioritize cutting down trees away from homes are just subsidizing commercial logging.

The federal government also contributed $500,000 to the pool of funding. The state prioritized work that goes across ownership boundaries, rather than on only state, federal or private land.

View the discussion thread.

Before leaving office, Gov. Bullock finalized a document that will guide forestry and logging projects in Montana for the next decade. Montana Public Radio’s Nick Mott has more from just south of Livingston. 

A citizen committee meeting Wednesday and Thursday put the finishing touches on a once-in-a-decade plan that will shape forest management in Montana.

Decades of aggressively putting out wildfires led to unhealthy, overgrown forests at particularly high risk for burns and disease outbreaks. At the same time, a patchwork of land ownership makes addressing management problems hard to do. That’s where the Montana Forest Action Plan comes in.

The connection between humans and fire goes back millions of years. What started with campfires and cooking grew into a burning addiction that catalyzed the Industrial Revolution and now shapes nearly every aspect of our society. Now, our ongoing reliance on fire in its many forms is changing the climate with explosive consequences for wildfires — and much more.

In 1910, a wildfire the size of Connecticut engulfed parts of Montana, Idaho and Washington. Ed Pulaski and his crew were among the many people trapped by the enormous blaze. The Big Burn, as it came to be known, helped propel a culture of fire suppression that still persists in many forms. What does that massive fire mean for the way our society deals with the wildfires of today?

When Lily Clarke arrived at the August Complex Fire, it was a fire of sensational size. The blaze eventually burned more than 1 million acres, becoming the largest recorded wildfire in California history. Across the country in 2020, flames charred an area nearly 5 times the size of Yellowstone National Park — the largest swath of land burned since reliable records began. Wildfires across the country are getting bigger, hotter and more devastating. But what’s all this fire really mean — for the west, for firefighters and for everyday folks? And what’s it really like to fight fire on the ground?


Impact of COVID-19 on Biochar Fine Granules Market by 2027 |Cool Planet Energy Systems …

27 March, 2021
 

Biochar Fine Granules Market research report is the new statistical data source added by A2Z Market Research.

Biochar Fine Granules Market is growing at a High CAGR during the forecast period 2021-2027. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market”.

Biochar Fine Granules Market research is an intelligence report with meticulous efforts undertaken to study the right and valuable information. The data which has been looked upon is done considering both, the existing top players and the upcoming competitors. Business strategies of the key players and the new entering market industries are studied in detail. Well explained SWOT analysis, revenue share and contact information are shared in this report analysis.

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Note – In order to provide more accurate market forecast, all our reports will be updated before delivery by considering the impact of COVID-19.

Top Key Players Profiled in this report are:

Cool Planet Energy Systems, Biochar Supreme, NextChar, Terra Char, CharGrow, Pacific Biochar, Biochar Now, The Biochar Company (TBC).

The key questions answered in this report:

Various factors are responsible for the market’s growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Biochar Fine Granules market. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market. The influence of the latest government guidelines is also analyzed in detail in the report. It studies the Biochar Fine Granules market’s trajectory between forecast periods.

Global Biochar Fine Granules Market Segmentation:

Market Segmentation by Type: Wood Source Biochar, Corn Source Biochar, Wheat Source Biochar.

Market Segmentation by Application: Soil Conditioner, Fertilizer.

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Regions Covered in the Global Biochar Fine Granules Market Report 2021:
The Middle East and Africa (GCC Countries and Egypt)
North America (the United States, Mexico, and Canada)
South America (Brazil etc.)
Europe (Turkey, Germany, Russia UK, Italy, France, etc.)
Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

The cost analysis of the Global Biochar Fine Granules Market has been performed while keeping in view manufacturing expenses, labor cost, and raw materials and their market concentration rate, suppliers, and price trend. Other factors such as Supply chain, downstream buyers, and sourcing strategy have been assessed to provide a complete and in-depth view of the market. Buyers of the report will also be exposed to a study on market positioning with factors such as target client, brand strategy, and price strategy taken into consideration.

The report provides insights on the following pointers:

Market Penetration: Comprehensive information on the product portfolios of the top players in the Biochar Fine Granules market.

Product Development/Innovation: Detailed insights on the upcoming technologies, R&D activities, and product launches in the market.

Competitive Assessment: In-depth assessment of the market strategies, geographic and business segments of the leading players in the market.

Market Development: Comprehensive information about emerging markets. This report analyzes the market for various segments across geographies.

Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the Biochar Fine Granules market.

Table of Contents

Global Biochar Fine Granules Market Research Report 2021 – 2027

Chapter 1 Biochar Fine Granules Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Biochar Fine Granules Market Forecast

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Biochar Fuel Market – NeighborWebSJ

27 March, 2021
 

GET FLAT 20% OFF ON THIS REPORT Biochar Fuel Market Report Coverage: Key Growth Factors & Challenges, Segmentation & Regional Outlook, Top Industry Trends & Opportunities, Competition Analysis, COVID-19 Impact Analysis & Projected Recovery, and Market Sizing & Forecast 2021-2030. Market Insights  The global Biochar Fuel market report provides comprehensive product analysis which includes its […]


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29 March, 2021
 

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Growth Response of Maize Plant Due to Biochar Rice and Fertilizer of Soil in Kwala Bekala, North …

29 March, 2021
 

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Inceptisol of Soil in Kwala Bekala Deli Serdang is the dominant agricultural land cultivated corn crop. However, the results obtained currently do not meet the desired target by farmers. A greenhouse study has been conducted to evaluate the response of corn plant growth through the application of rice husk biochar and manure on Ultisol of Soil in Kwala Bekala, Deli Serdang, North of Sumatera. This research was conducted using Randomized Block Design of Factor (RBDF) with 2 treatments. Treatment I used by biochar rice husk (B) with 4 levels ie B0 (0 g / polybag), B1 (25 g/polybag), B2 (50 g/polybag) and B3 (75 g/polybag). The second treatment is cow manure (S) with 4 levels i.e. S0 (0 g/polybag), S1 (25 g / polybag), S2 (50 g/polybag) and S3 (75 g/polybag). Each combination of treatments. repeated 3 times so that there are 48 experimental units. The results showed that application of rice husk biochar of 50 g / polybag able to increase P uptake of plants by 9.96 mg / maize plant and increase plant height up to 176.17 cm. Application of cow manure of fertilizer of cow as much as 50 g/polybag can increase uptake of P, plant height, root dry weight and corn plant respectively 6.09 mg/plant, 185,78 cm, 17,06 g and 152,58 g. Meanwhile, rice husk (50 g/polybag) intrusion and cow manure (50 g/polybag) were also able to increase P uptake of corn plant up to 5.39 mg/plant.

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Youtube biochar inoculation

30 March, 2021
 

Canada’s customizable and curated collection of Canadian and world news plus coverage of sports, entertainment, money, weather, travel, health and lifestyle, combined with Outlook / Hotmail …

Nov 24, 2020 – Explore Denise White's board "DOWN ON THE FARM", followed by 1200 people on Pinterest. See more ideas about farm, chickens backyard, hobby farms.

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Zulkipli, Zulfatihah (2016) Effects of rice husk biochar on growth performance of MRIA 1 and nutrient content in soil at seedling stage / Zulfatihah Zulkipli. [Student Project] (Unpublished) Ismail, Isma Syahril (2016) Effects of sound stimuli on the phenotypic and genotypic characteristics of Staphylococcus aureus / Isma Syahril Ismail. Background to Biochar technology: What it can do. •Products •Char 25 –50% of energy 10 –40% of dry mass •Combustible off-gases 35 – 65% of energy 60-200% of dry mass

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Aug 30, 2016 · Since biochar is a more stable source of nutrient than manure or compost, it enhances productivity when added to the soil, resulting in increased crop yields and at the same time reduces the need … warmheartworldwide.com In this video we show you how to make a basic Top Lit Up Draft Biochar Machine. Warm Heart have been teaching hundreds of farmers in the Northern Thailand how to make these machines in order to help reduce the smoke produced in the area.

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Response of soybean varieties to rhizobium inoculation on an Alfisol in Minna, Southern Guinnea Savanna zone of Nigeria. 35th annual proceedings of SSSN. Pp 243-253 35th annual proceedings of SSSN. Feb 2011 This site has been created to facilitate the establishment of a South East Asian biochar interest group. BIG-SEA could provide communication and linkage between biochar researchers, farmers, related industry and supporting organisations, interested in tropically focused biochar industry development. Please get in touch if you are interested in supporting or participating in this effort.

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Effect of controlled inoculation with specific mycorrhizal fungi from the urban environment on growth and physiology of containerized shade tree species growing under different water regimes. Mycorrhiza 21: 703-719. Article: I. Czerniawska-Kusza and G. Kusza and M. Duzynski I. Czerniawska-Kusza and G. Kusza and M. Duzynski. 2004.

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4/ago/2017 – Evidence that ancient farms had very different origins than previously thought – Ars Technica Google Scholar Page. We have "adjusted" the selected start and/or end years of the filtering criteria to match the faculty scholar's appointment period. Listing below only includes the publications subsequent to the faculty scholar's appointment year

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Charcoal is usually produced by slow pyrolysis, the heating of wood, sugar, bone char or other substances in the absence of oxygen (see pyrolysis, char and biochar). The resulting soft, brittle, lightweight, black, porous material resembles coal and is 85% to 98% carbon with the remainder consisting of volatile chemicals and ash." Feb 14, 2020 · Washington State’s nature and beauty on YouTube on one channel Enjoy new videos in 4K and 4K HDR every week Like Share and don’t forget to Subscribe 1 კლასიკო ლას ვეგასში – Washington Post-ი ზაფხულში დიდ მატჩს აანონსებს

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Jung, Young Cheol & Das, Anupam & McFarlane, Adian, 2020. "The asymmetric relationship between the oil price and the US-Canada exchange rate," The Quarterly Review of Economics and Finance, Elsevier, vol. 76(C), pages 198-206.

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Prof Yuan received his PhD degree in aeronautical engineering in 1992 from Beijing University of Aeronautics and Astronautics, China. He changed research direction to wastewater management in 1994, when he took up a postdoctoral research fellow position at Ghent University, Belgium.

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Apr 30, 2019 · The heart is called Yi [unified power] becuz when intent moves, spirit is agitated; qi is dispersed. Qi is the Mother of spirit; Spirit is the child of qi. The Mother as qi is the horse that guides/conducts the river chariot (yin spirit) in the water (yin jing). Once your mind is away from the lower Elixir Field, your Qi will be led away from it and be consumed. By gathering the Shen into the …

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Nov 11, 2020 · Desertification is a type of land degradation in drylands in which biological productivity is lost due to natural processes or induced by human activities whereby fertile areas become increasingly arid. It is the spread of arid areas caused by a variety of factors, such as climate change (particular

Research and extension professionals at the University of Nebraska-Lincoln (UNL Organic Working Group) in response to the growing demand for information on alternative production systems and input from our organic farmer advisory groups will continue to develop organic farming systems and recommendations adapted to the diverse agroecoregions of the Great Plains.
Using this method, I don’t water until runoff and I never flush. I was inspired to try it myself when I saw a YouTube video on the channel ‘Mendo Dope’ with Minnesota Nice about growing indoors with a no-till soil. Brownguy420 on YouTube was also a good resource. There are some misconceptions in their videos. Improving fertilizer-depot exploitation and maize growth by inoculation with plant growth-promoting bacteria – from lab to field Chemical and Biological Technologies in Agriculture: 2016 Journal contribution (peer reviewed) Nkebiwe P.M., Weinmann M., Müller T.

Inoculation is a set of methods of artificially inducing immunity against various infectious diseases. The terms inoculation, vaccination, and immunization are often used synonymously, but there are…

Inoculation. From Wikipedia, the free encyclopedia. For the metallurgical strengthening process, see Grain Smallpox Inoculation and Onesimus. Inoculation = Definition of Inoculation (HINDI).


Chiang Mai to host fundraiser to 'stop the smoke'

30 March, 2021
 

published : 30 Mar 2021 at 04:00

newspaper section: Life

writer: Gary Boyle

Pollution in northern Thailand once again hit the headlines this month as Chiang Mai spent several days ranked as the most polluted city on the planet.

One of the organisations working to reduce the annual haze is the Warm Heart Foundation. Warm Heart is a nonprofit organisation working to bring positive change to the poor community of Phrao in the foothills of northern Thailand.

Their scope is wide-ranging, partnering with rural communities to empower children, create opportunities for sustainable livelihoods, ensure the well-being of the elderly, and provide practical and accessible education as well as socially and environmentally responsible innovation.

As the pollution from open burning affects their rural communities, Warm Heart has been researching and advocating the adoption of biochar production — the controlled burning of corn waste at high temperatures to make biochar — a “super charcoal” that is environmentally friendly and sustainable.

Beyond biochar, Warm Heart is looking to agroforestry as a solution to the haze problem. Agroforestry will help farmers earn income while moving away from corn. Restoring the forests will help retain water, thereby improving the watershed and expanding the type of crops farmers can grow.

Northern Thailand United Youth Orchestra. (Photo: Warm Heart Foundation)

To raise both awareness and funds for this new project, Warm Heart has organised a special fundraiser “Stop the Smoke” in Chiang Mai on April 1.

Shangri-La Hotel Chiang Mai will host a charity dinner-concert, featuring classical music performed by the Northern Thailand United Youth Orchestra.

The orchestra boasts some 80 musicians and will be performing two sets of classical music during the evening. The four-course menu is high-end, with both carnivorous and vegetarian options.

The event has a fitting dress code — casual elegant. Tickets for the event are 12,000 baht per table (eight seats) or 1,800 baht for an individual seat at a shared table.

For more information and reservations, call 083-323-9601 or contact carol@warmheartfoundation.org

NONG KHAI: A Lao worker was arrested on Tuesday after three people, including his wife, were fatally stabbed and another man wounded at a rubber plantation in Sri Chiang Mai district on Monday night.

HONG KONG: Chinese leaders endorsed a sweeping overhaul of Hong Kong's electoral system Tuesday, slashing its number of directly elected seats and ensuring a majority of the city's lawmakers will be selected by a reliably pro-Beijing committee.

PARIS: The cost of global warming will far outweigh the cost of rapidly cutting greenhouse gas emissions, more than 700 economists from around the world said Tuesday in an unprecedented call to climate action.


Shrub willow as a bioenergy crop

31 March, 2021
 

Research highlights shrub willow’s ability to store carbon, provide ecosystem services, and adapt to different geographical regions.

March 31, 2021 – Renewable energy demand and consumption is at an all-time high in the United States.

Shrub willow – a quick-growing woody crop – can be an excellent source of renewable bioenergy. The crop is harvested and turned into wood chips, which can be used for heat, mulch, animal bedding, biochar, and biofuel.

In a new study, researchers grew shrub willow on a semi-commercial scale to better understand the nuances of this bioenergy crop. The research was published in Agronomy Journal, a publication of the American Society of Agronomy.

“We learned and developed key know-hows that we can transfer to industry partners interested in this crop,” says Armen Kemanian. Kemanian is a member of the American Society of Agronomy and is the lead author of the study.

Insights include determining which willow varieties to plant and how to best handle planting and harvesting.

“Starting a willow crop can be expensive,” says Kemanian. “It also requires a perfectly choreographed operation to keep costs low and yields high.”

But shrub willow also offers several advantages as a bioenergy crop.

“Shrub willow thrives in wetter areas with cold winters and mild summers,” says Kemanian. That makes the crop well-suited to New England and parts of the upper Midwest.

Other bioenergy crops, such as switchgrass, grow better in areas of the U.S. with warmer summers.

According to Kemanian, “Shrub willow can be part of a geographically diverse combination of bioenergy crops.”

One important quality of shrub willow is its ability to store a tremendous amount of carbon. That’s beneficial because when there is more carbon stored in plants, there is less carbon in the atmosphere.

When the carbon is in the atmosphere as carbon dioxide, it can be a harmful greenhouse gas. But when the carbon is in the plant, it doesn’t pose a risk to the environment.

Shrub willow also has tremendous genetic variability. That’s important for breeding key crop characteristics, such as pest resistance.

“The study found that planting a mixture of willow varieties is critically important,” says Kemanian.

That’s because some highly productive willow varieties attract pests, like the willow leaf beetle. Surrounding these high-yield willow varieties with beetle-resistant varieties can slow down the pests.

“This is a different strategy compared to growing annual crops,” explains Kemanian.

Annuals can be replanted every year. In contrast, shrub willow can be harvested every two to four years for more than 20 years. “Growing different varieties together is critical,” says Kemanian.

The relatively long lifespan of willow crops also means that planning is vitally important.

“Harvest costs account for a large fraction of total operation cost over the life cycle of willow crops,” says Kemanian.

The study established that a well-designed field is easier to harvest. That might seem obvious, but some of the findings are counterintuitive.

For example, while yields are important, seeking the highest possible yield per unit area is not the most critical parameter when planning willow planting schemes.

“Designing fields and plantings so that harvest machinery traffic is efficient is more important,” says Kemanian.

However, the study also found that – at least on semi-commercial scales – actual willow yields could be lower than the expected yield potential.

“Willow thrives in productive soils,” says Kemanian. “Rocky soils can increase planting and harvest cost and lower yields.”

Researchers suggest that when it comes to growing shrub willow, the harvestable crop isn’t the only valuable outcome for farmers.

“We should also monetize the ecosystem services that willow provides,” says Kemanian.

These services include storing carbon, hosting pollinators, reducing water runoff, and retaining nutrients – such as nitrogen – in the soil.

“Willow can play a significant role in improving our most intensely farmed land,” says Kemanian. “We just need to take advantage of the synergies between animal production and crop production.”

But quantifying the ecosystems services of willow at a large scale remains complicated. “We can tackle this challenge with computer modeling,” says Kemanian. “That’s something our team is doing right now.”

Other next steps include monitoring for pest outbreaks with unmanned aerial vehicles (UAVs). These UAVs could also be used to detect and control pests efficiently and economically.

“Ultimately, we think willow can play a role in regenerative and climate-smart agriculture,” says Kemanian.

Armen Kemanian is an associate professor and researcher at Pennsylvania State University. This work was supported by the NEWBio project and the United States Department of Agriculture’s National Institute of Food and Agriculture.

Agronomy Journal is the flagship journal of the American Society of Agronomy. Articles convey original research in agriculture, natural resources, soil science, crop science, agroclimatology, agronomic modeling, production agriculture, and instrumentation.

The American Society of Agronomy is an international scientific and professional society with its headquarters in Madison, WI. Our members are researchers and trained, certified professionals in the areas of growing our world’s food supply, while protecting our environment. We work at universities, government research facilities and private businesses across the United States and the world.


Researchers are refining recipes for biochar that benefits industry and the environment – ALES News

31 March, 2021
 

Scott Chang and Christopher Nzediegwu (Renewable Resources) are researching a product produced from agricultural and forestry waste that has uses ranging from reclaiming wastewater to capturing carbon and decontaminating soil.

Original Source: folio
Original publishing date: March 29, 2021

Read the complete story…

 

Documentation


Battle Between Biochar & Activated Carbon: The Digest's 2021 Multi-Slide Guide to Biochar

31 March, 2021
 

The same yet different. That’s biochar and activated carbon – both are carbon-based porous material and are the active agent in a separation process, but they also have significant differences. Check out this illuminating slide guide from William Naylor at Lee Enterprises Consulting on the advantages and applications for biochar, suggestions for biochar producers, and more.


Biochar's effect on the ecosystem services provided by sandy-textured and contaminated sandy …

31 March, 2021
 

Biochar is a relatively new soil amendment method in agricultural practices that can improve the ecosystem services of soils. Biochar has commonly been applied to less fertile or contaminated soils, specifically sandy-textured and contaminated sandy soils, to improve their properties. However, the available literature indicates that not all sandy-textured and contaminated sandy soils show the same response to biochar applications, as the sign and size of the effect vary across studies. More specifically, primary studies show heterogeneous and potentially conflicting impacts of biochar application on a set of ecosystem services provided by these types of soils; namely, biomass production, water cycle, nutrient cycle, and climate regulation. Therefore, the objective of the present study is to systematically review the available evidence base to synthesise the impact and drivers of biochar amendments on four specific ecosystem services provided by sandy-textured and contaminated sandy soils.

This review follows the guideline of the Collaboration for Environmental Evidence and corresponds to the ROSES (RepOrting standards for Systematic Evidence Synthesis) reporting standard. A comprehensive search strategy will be employed to cover peer-reviewed and gray literature through bibliographic databases, organizational and institutional websites, and web searches. Search terms and strategies have been developed to identify the impact of biochar on the ecosystem services of sandy-textured soils. The search results will be screened first by their title and abstract, and then by their full text. Two literature reviewers will do this based on eligibility criteria. A validity assessment will be conducted to critically appraise and assess the validity of studies using a common validity framework for environmental studies. Data will be extracted from the studies that are found to be valid for the review. Narrative synthesis and meta-analysis will be employed to synthesise the review results.

Sandy-textured and contaminated soils are marginal soils [1], which are characterized as poor-fertile soils due to low soil organic carbon [2], poor aggregate stability, and low water-holding capacity [3]. Sandy-textured soils can be in the forms of both natural and non-natural. Approximately 6% of the earth’s surface (900 million hectares) consists of natural sandy soils [2], some of which are being intensely used for cultivation in developing countries, such as in Africa [4]. Non-natural sandy-textured soils are mainly the consequences of intensive agricultural practices and climate change [5,6,7]. For instance, intensive farming can negatively impact soil organic matter and nutrient levels, which can cause modifications in soil composition, rendering fertile soil marginal [8, 9]. Likewise, climate change, such as global warming, affects the water cycle in the soil and the dynamics of soil moisture, which contributes to the conversion of fertile soils to sandy ones [10]. If the quality of sandy-textured, non-natural soils were at their original productive level, they could provide one-third of the world’s population with basic food needs [7]. Furthermore, many agricultural soils are contaminated with heavy metal pollution because of unsustainable soil management, industrial activities, and the use of inorganic fertilizers and pesticides. These marginal soils, sandy-textured and contaminated sandy soils, rely heavily on external inputs such as organic and inorganic fertilizers to bring the soil productivity back and consequently conduct farming [11]. However, the long-term application of inorganic fertilizers negatively impacts the existing soil microbial communities and biochemical process, leading to the possible complete loss of soil fertility [12]. This is an issue particularly against the background of rapidly increasing human populations, which requires additional food production and, consequently, to some extent, additional arable land [13]. This, in turn, increases the need for environmentally sound technologies such as biochar that can improve soil quality and fertility.

Biochar is a relatively new development in agricultural management [14] that caught the attention of scientists as a means of environmental and sustainable soil management that can help increase the amount of land suited for agriculture [15,16,17]. Biochar can be defined as “solid material obtained from the thermochemical conversion of biomass in an oxygen-limited environment” [18]. Biochar is usually attained through pyrolysis of different types of organic feedstock, precisely biomass materials (plantations that produce energy crops, natural vegetable growth, organic wastes and residues (animal wastes, forest residue, agricultural residue, etc.) [19]) in varying pyrolysis degrees [16]. The conceptual paper titled “A handful of carbon” by Johannes Lehmann, published in 2007, was a turning point in biochar-related research [15]. The annual number of publications concerning biochar for environmental management has been increasing ever since [15, 20]. The main topics covered in publications are the use of biochar in agriculture, waste management, energy production, and greenhouse gas reduction [15]. The agricultural benefits of biochar and its ability to reduce greenhouse gases are the most researched topics [15].

Biochar as a soil additive can enhance soil properties [21]. Biochar contributes to altering soil characteristics, resulting in positive modifications in water and nutrient retention capacity, soil aeration [22], as well as improving soil biological [23], chemical, and physical activities [24]. However, a recent review by Zhu and Chen [25] indicated the potential toxicity that can be induced to soil microbial communities with biochar application due to certain reactive compounds and heavy metals in the content of biochar. This leads to a change in soil microbial habitat, which could harm the soil and its ecosystem services [25]. The Millennium Ecosystem Assessment defines ecosystem services as “the benefits people obtain from ecosystems,” classifying them into provisioning, regulating, cultural services, and supporting functions [26] (see Additional file 2). Jónsson and Davíðsdóttir [27] conducted a comprehensive review on soil ecosystem services (see Additional file 3), which will be employed for this review. Biochar is seen as a method of enhancing the status of soil ecosystem services [25], leading to increased crop and biomass productivity, sequestering additional carbon to mitigate climate change [28, 29], improving water retention of sandy-textured soils [16], and enhancing nutrient cycle by increasing soil nutrient availability and uptake [30].

Not all types of soil benefit from biochar applications to the same extent [31]. Alkaline soils in temperate climates have mainly responded to biochar addition transiently, especially with regard to crop productivity [32], and resulted in lower crop yields in high fertile soils [33]. However, less fertile, sandy, degraded, heavy-metal-polluted, and nutrient-deprived soils are more likely to benefit from biochar amendments [28, 34]. Even for these types of soils, the effects of biochar application for soil ecosystem can vary in sign and effect. For instance, some primary studies reported an increase in yield and nutrient retention of sandy loam soils using biochar prepared from manure, wood, and straw feedstocks [30, 35]. In contrast, some studies showed no change in crop yields when biochar from similar raw materials was applied on soils of the same type [36, 37]. Variation in results was also found with regard to the pyrolysis temperature. For example, higher pyrolysis temperature was preferred for the water retention capacities of sandy loam soils in the studies carried out by the researchers in the domain [38, 39]. Wiersma, van der Ploeg [40] found no impact on water retention capacities for biochar produced at a similar pyrolysis temperature. Additionally, the application rate of biochar can also contribute to the heterogeneity in the outcome. Studies carried out in the field [41, 42] showed negative responses in crop productivity for lower application rate of biochar, whereas Rondon and Lehmann [43] found the opposite.

The apparent heterogeneity in results in the literature motivated us to conduct a systematic review to clarify the biochar’s effect on ecosystem services, focusing specifically on natural and non-natural sandy-textured soils and contaminated soils. Based on our expertise-based understanding of the most important soil ecosystem services impacted by biochar application and on additional advice from the advisory committee for this systematic review, we specified the following supporting, regulation, and provisioning soil ecosystem services to be reviewed in this study: nutrient cycling, water cycling, climate regulation, and biomass/crop production. Review results can be exploited as complementary information by policymakers to facilitate policy recommendations of biochar applications as a soil amendment. Our review also aims to determine research gaps in current studies and set out a roadmap for further research related to biochar application on sandy-textured and contaminated soils.

The plan for a systematic review of biochar’s effect on soil ecosystem services was brought forward in a project meeting of the BASTA project funded by the Research Foundation Flanders in December 2019 (BASTA: “Biochar’s added value in sustainable land use with targeted applications”) [44]. The BASTA project’s main aim is the production of biochar from various residual biomasses and its application in different agricultural settings (biochar application in composting, anaerobic digestion, manure storage, growing media, and open field). BASTA stakeholders (academia, biochar producers, research institutes, agencies, policymakers) are aware of the lack of systematic synthesis on biochar’s soil ecosystem services, and they support the systematic review.

An advisory committee was created, including some of the BASTA project members, with expertise in soil ecology, and with external ecosystem-services experts from the University of Hasselt. The advisory committee helped define the list of ecosystem services to review in the study. The members also contributed to the creation of search terms and search databases. Based on their suggestions, subsections such as data coding and extraction strategy and effect modifiers were improved.

This paper’s primary focus is to systematically review and synthesize studies on the effect of biochar on a set of four ecosystem services of sandy and contaminated sandy soils. To this end, the following research question has been formulated:

What is the impact of biochar amendments on nutrient cycling and water cycling, climate regulation and crop/biomass production ecosystem services provided by sandy-textured and contaminated sandy soils?

The research question components were structured based on the PICO (population, intervention, comparator, outcome) model. The population in this study consists of soil types (sandy-textured soils and contaminated sandy soils). The intervention considered is the soil amendment using biochar, where the control of no biochar amendment serves as the comparator. Finally, the outcome is a positive, negative, or no change in sandy-textured and contaminated sandy soils’ four ecosystem services, which will be measured by comparing the treatment (with biochar) to control (without biochar). Potential effect modifiers that can affect the variation in the outcome will also be considered.

As mentioned earlier, for this review study, soil ecosystem services classified by Jónsson and Davíðsdóttir [27] will be adopted: supporting services (nutrient cycle, water cycle), regulating services (climate regulation), provisioning services (crop/biomass production) (see Additional file 3).

Three types of soils with high levels of sand (more than 50%) will be considered in the review, using the soil texture categorization (Table 1) by the United States Department of Agriculture [45]. Sandy-textured soils considered for the study are mainly degraded soils due to unsustainable agricultural activities, industrialization, and urbanization. Heavy-metal-contaminated sandy soils will also be considered for the review. One reason for selecting sandy-textured and contaminated sandy soils for this review is to provide supplementary information to the BASTA project that will implement experiments on these types of soils in the Kempen region of Belgium. Furthermore, we will only consider biochar experiments on topsoil for this review, mainly due to the fact that many biochar-related studies implemented the experiments on topsoil (0–30 cm of soil depth). In addition, the scope of this study also lays on reviewing the changes in topsoil ecosystem services with biochar application. Review results will provide background information about the interaction between biochar and sandy-textured and contaminated sandy soils and the effect on four specific soil ecosystem services that can be beneficial for further analysis of ecosystems of soils chosen for the BASTA project.

After testing the search terms (Table 2) in WoS, we obtained 2382 results. Ninety randomly selected hits were used to screen title and abstract to determine the regions in which studies were carried out the most. Based on this random sampling, we found out that studies were carried out in many different regions, so we decided not to impose any geographical scope in order to ensure sufficient data. Geographical locations where experiments were carried out will be considered as an effect modifier.

The review protocol will follow the guidelines of the Collaboration for Environmental Evidence [46] and corresponds with the ROSES [47] reporting standard. The ROSES form is included as an Additional file 1.

The search terms will be based on the PICO components. Three components of PICO (population, intervention, and outcome) will be combined to build search terms. For field tags, TS (TITLE—ABS—KEY) will be used. Component categories between search terms will be merged using the “AND” Boolean operator, while “OR” operators will be used within categories. Truncation characters (* and $) will also be used to make the search more expansive. To come up with search strings (Table 2), an initial scoping exercise was carried out on the Web of Science (WoS) “Core collection” database. For the scoping exercise, we first specified terms for four specific soil ecosystem services by applying the terms defined by Jónsson and Davíðsdóttir [27]. The advisory group then helped to complement the final search terms with related synonyms. The search terms in Table 2 are considered as definite. To conduct the scoping exercise in the advanced search function of WoS “Core collection”, we have used the institutional subscription of the Hasselt University library.

The search terms have been designed to retrieve all publications on biochar’s effect on nutrient cycle, water cycle, climate regulation, and crop/biomass yield of sandy-textured and contaminated sandy soils. All documents, including peer-reviewed publications and gray literature (not submitted to peer-reviewed journals), will be retrieved to minimize publication bias [48]. To maximize the search, the following sources will be searched: bibliographic databases (for peer-reviewed publications), organizational/institutional websites, and web-based searches (for gray literature, which can include publications, organizational reports, theses, etc.). Search terms displayed in Table 2 are mostly applicable for bibliographic databases as they have more advanced search functions. When the search terms are applied to organizational websites and internet-based searches, the search formula and Boolean operators can be simplified because they might have limited search interfaces regarding search strings. All of the used search strings will be saved and provided as additional information in the final report.

The search will be carried out in English, and search results in languages other than English will not be considered for the review. English is the common language among the review team, so it will provide dual consistency checking in screening, full-text review, quality appraisal, and data extraction.

To ensure the comprehensiveness of the search strings built for the review (Table 2), the search strings were tested against a set of 15 benchmark articles (see Additional file 4). The bibliographies of benchmark articles were also screened to check whether relevant articles cited were contained in the search results. When search results were found to not be pertinent, and any missing articles were detected, the final search strings were modified accordingly. The set of benchmark articles is generated by searching the publications of highly cited and relevant articles.

The following bibliographic databases will be searched to collate publications by using the advanced search tools of databases.

Web of Science “Core collection”: https://www.webofknowledge.com.

Scopus: https://www.scopus.com/.

AGRICOLA: https://www.agricola.nal.usda.gov/.

AGRIS: https://www.agris.fao.org/.

ProQuest Environmental Sciences and Pollution Management: https://search.proquest.com/advanced.

EBSCO Open Dissertations: https://biblioboard.com/opendissertations/.

Networked Digital Library of Theses and Dissertations: http://www.ndltd.org/.

Open access theses and dissertations: https://oatd.org/.

The following organizational websites will be searched to obtain potential additional studies that are not covered by the bibliographic databases. As mentioned above, some organizational websites might not have a very advanced search function. Therefore, some manual searches will be executed using the search terms defined in Table 2.

International Biochar Initiative: https://biochar-international.org/biochar/.

UK Biochar Research Center: https://www.biochar.ac.uk/research.php?id=10&r=a.

US Biochar Initiative: https://biochar-us.org/biochar-introduction.

European Biochar Certificate: https://www.european-biochar.org/en/home.

Sonoma Biochar Initiative: https://sonomabiocharinitiative.org/.

Israel Biochar Research Network: https://sites.google.com/site/ibrnisraelbiocharnetwork/home.

Biochar for sustainable soils: https://biochar.international/.

Ithaka institute: http://www.ithaka-institut.org/en/home.

New Zealand Biochar Research Centre: https://www.massey.ac.nz/massey/learning/colleges/college-of-sciences/research/agriculture-environment-research/biochar-research-centre/biochar-research-centre_home.cfm.

Environmental Protection Agency (USA): https://www.epa.gov/.

Research Institute for Organic Agriculture: https://knowledge4policy.ec.europa.eu/organisation/research-institute-organic-agriculture_en.

Research Institute for Agriculture, Fisheries and Food (ILVO, Belgium, Flanders): https://www.ilvo.vlaanderen.be/EN/Home.

Netherlands Organisation for Applied Scientific Research (TNO, The Netherlands): https://www.tno.nl/en/.

Wageningen University & Research (The Netherlands): https://www.wur.nl/en/wageningen-university.htm.

Julius Kühn Institute—Federal Research Centre for Cultivated Plants (Germany): https://www.julius-kuehn.de/en/.

Mercator Research Institute on Global Commons and Climate Change (Germany): https://www.mcc-berlin.net/en/index.html.

Thünen institute—Federal Research Institute for Rural Areas, Forestry and Fisheries (Germany): https://www.thuenen.de/en/about-us/the-institute/.

Agroscope (Switzerland): https://www.agroscope.admin.ch/agroscope/en/home.

James Hutton Institute (United Kingdom): https://www.hutton.ac.uk/.

Rothamsted Research (United Kingdom): https://www.rothamsted.ac.uk/.

UK Centre for Ecology & Hydrology (United Kingdom): https://www.ceh.ac.uk/.

In addition to the bibliographic database and organizational website searches, web-based searches will be conducted using Google (https://www.google.com/) and Google Scholar (https://scholar.google.com/). Google Scholar will be used to retrieve both peer-reviewed and gray literature [49]. Google Scholar is not recommended as a standalone resource in a systematic review, but it can be valuable for complementing bibliographic searches and retrieving full texts of articles in PDF [49]. Google searches can be broad and return many results for every search, both related and unrelated to the review objective. For that reason, in our review study we will download the first 1000 results returned by Google scholar [50] using Publish or Perish software [51] as also done, for example, by other systematic reviews in Environmental Evidence [52, 53]. The software will assist in retrieving relevant articles to add to the reference list in Endnote. We will also account for the reference lists of relevant articles for the supplemental searches.

The Endnote X9 reference management software will be used to import the search results. If a certain document cannot be imported into the software, a record will be managed manually by creating a separate file. After finalizing all searches, the reference files will be merged and checked for duplicates. Before removing any of the duplicates, they will be rechecked and compared with regard to title, abstract, and year of publication. Once all duplicates have been removed, the final version will be checked with Endnote’s deduplication tool.

The screening processes will encompass two steps and will be conducted by two reviewers. The first two authors of this review protocol make up the review team that will carry out all review steps (such as eligibility criteria and critical appraisal). In the first step, the results are filtered screening on their title together with abstract relevance. In the second step, selected articles will be reviewed for their full text. Systematic reviewers who have also authored articles to be considered in the review cannot get assigned to assess their own work. The screening will be based on the eligibility criteria provided in the following section.

Before starting the actual screening, both reviewers will screen 100 randomly chosen articles from the search results to ensure consistency regarding decisions about the inclusion criteria. Consistency checking will be conducted at each stage of the screening. If the reviewer has any doubt about excluding a paper, it should be marked and discussed later with the other reviewer. Upon mutual agreement, the publication will be excluded or not. If reviewers cannot reach a consensus about inclusion, the publication will be reviewed by an adjudicating reviewer. The level of agreement regarding consistency will be verified by employing the Kappa statistic [54]. According to the Kappa statistic, agreements should not be below 0.6, otherwise, consistency testing will be repeated until a higher agreement is attained. All disagreements will be discussed in detail between reviewers prior to starting the actual screening. Any excluded article at the full-text screening step will be recorded, together with an explanation for the exclusion in the appendix of the final report.

As mentioned above, the eligibility criteria will be based on the PICO model.

Regarding eligible populations, studies performing experiments on soils other than sandy-textured and contaminated sandy soils (see Table 1) will be excluded. If the type of soils upon which an experiment was performed are not defined, the corresponding authors will be contacted. If it is not possible to clarify in any other way, those studies will be excluded. Furthermore, studies implemented in the experiments on topsoil (0–30 cm) will be considered for the review. Deep-soil experiments will be excluded as they are beyond the scope of the review.

The eligible intervention is biochar, produced from biomass, used in agriculture as a soil amendment. Some studies use terms like charcoal and black carbon as a synonym of biochar. However, black carbon and charcoal can differ from biochar in production and application purposes. For instance, black carbon can be made by burning fossil fuels as well as biomass [55], while charcoal is produced mainly to provide affordable energy to rural areas and is not used solely as a soil amendment [56]. However, we do include the terms “black carbon” and “charcoal” in the intervention search terms (Table 2). We will bring the terms (“black carbon” and “charcoal”) into the full-text level to confirm that they are indeed made of organic feedstocks and have the same application intention as biochar. Otherwise, studies included the terms “black carbon” and “charcoal” will be excluded at the full stage of screening. We will also use the term Agrichar, as it is a new term that is used in some organizational websites and is closely related to biochar.

Control sites or plots without any intervention—that is, no biochar added or treated as the intervention plots—will be used as a comparator. However, control sites or plots that are treated with fertilizers will also be included. In the latter case, intervention plots should have been managed with biochar together with fertilizers to make it comparable.

Outcomes considered for the review are positive, negative, or no changes in four ecosystem services (nutrient cycling, water cycling, climate regulation, and biomass/crop production) of sandy-textured and contaminated sandy soils.

Experimental primary studies, particularly laboratory experiments, greenhouse experiments, and field experiments that employed control and treatment groups, will be included in the review. Previously systematically reviewed papers will also be accounted for by screening their reference lists.

Studies that meet the eligibility criteria will be critically appraised to assess their internal and external validity. Critical appraisal is a critical stage of the systematic review in terms of evaluating the studies’ suitability for the data synthesis. Studies that are found to be eligible will be appraised for the different types of biases by being categorized as “low”, “moderate”, and “high” risk of bias (see Additional file 5). The factors in Table 3 are selected for the critical appraisal.

The criteria in Table 3 is created based on a framework suggested by Bilotta, Milner [57] and the critical appraisal tool developed by CEE [58] to assess the internal validity of the studies and consider all possible biases (selection bias, performance bias, attrition bias, reporting bias, etc.). Studies with a “low “and “moderate” risk of bias will be used to extract necessary data for data synthesis, while publications found to have a “high” risk of bias will be used to conduct a sensitivity analysis by comparing the outcome of including and excluding the papers with “high” risk of bias. If studies are appraised as having a “moderate” risk of bias due to missing data, the corresponding authors will be contacted; otherwise, they will be used in a narrative synthesis. All information related to the risk assessment and excluded studies at the stage of a critical appraisal will be recorded in the database and presented with the final review results.

As with screening, consistency checking will also be done for the critical appraisal. Again, all studies will be evaluated by the same two appointed reviewers. If there are disagreements regarding any of the criteria, the study will be discussed between reviewers until a consensus is reached. If this is not possible, a third reviewer will be involved.

In our review, we analyze the effect of biochar on different ecosystem services (nutrient cycling, water cycling, climate regulation, and biomass/crop production). Therefore, each included study may report estimates for different ecosystem services. Moreover, each study may report multiple estimates for the same ecosystem service. We extract all these estimates from the studies and place them into individual rows. We address the potential dependence of the data as outlined below in the “Data synthesis and presentation” section.

In case of a misunderstanding or any missing data, authors will be contacted to clarify and obtain the missing data. All extracted data from included studies will be saved in a Microsoft Excel spreadsheet, which will be attached as an additional file for the final review. Table 4 shows the essential data for the extraction process. If the data are presented only in tables or graphs, they will be extracted using apps like webplotdigitizer, and the information will be recorded in the spreadsheet. If the data are hard to extract or decipher, or if data are missing, then the corresponding author of the article will be contacted for more clarification or submission of data. The same procedure will be followed in the data synthesis stage. In case the required data cannot be obtained, the studies will be excluded from the analysis. Extracted data records and excluded studies will be made available as an additional file.

To check the consistency of the coding, the same method will be applied as for screening and quality appraisal. Ten percent of randomly selected papers will be used by each reviewer for consistency of coding.

If there are any effect modifiers that may cause heterogeneity in the outcome, they will be retrieved and recorded in an Excel spreadsheet. Below, a list of effect modifiers was collated in consultation with the advisory team. If additional effect modifiers are detected during the review, they will be added to the list. All effect modifiers will be coded and represented in the narrative analysis, and their effect on variation in the outcome will be explored through the meta-regression analysis. The potential effect modifiers are: study country, experimental design, experimental setup, climate type, duration of experiment, feedstock for biochar, biochar carbon rate, pyrolysis temperature, application rate of biochar, type of soil, soil depth, and soil treatment before biochar.

A narrative synthesis will be generated to visually represent the data of all included studies with low risk of bias (see “Study validity assessment”). Data extracted from each study based on Table 4 and studies that do not have quantitative results (for example, no means, SD, or correlation) will also be used for the narrative synthesis. We will create tables to represent the countries where experiments were implemented, together with experimental conditions, types of experiments (control, treatment), and duration of experiments in a narrative manner.

We plan to conduct meta-analysis if there are a sufficient amount of quantitative data to be extracted. We use separate meta-analyses to assess the effect of biochar on four specific soil ecosystem services (nutrient cycling, water cycling, climate regulation, and biomass/crop production). We will conduct the meta-analysis in R [59] using the metaphor package [60]. To measure the effect size (treatment to control) the natural log-transformed response ratio will be used [61], which is the favored method for calculating the effect size in ecological studies [62, 63]. We will synthesize effect sizes by inverse-variance weighting to assign higher weights to more precise studies [64]. We will report results for fixed-effects and random-effects models. We potentially extract multiple estimates from the same study (for instance, multiple comparisons between the same plots or pots at different time points). We conduct the meta-analyses using the estimate that the authors of the study describe as the main results to address the potential dependence of estimates from the same study. Results using all estimates will be also reported. If data allow, sub-group analysis for important effect modifiers are conducted, such as different study designs (greenhouse, lab and field experiments).

In addition to subgroup analysis, we will explore how variation in the estimates can be explained by effect modifiers using a meta-regression. The meta-regression will help to shed light on which effect modifiers are the most important. The meta-regression will be conducted for all estimates (potentially multiple estimates per study) to allow for a maximum of variation in the estimates that can be then traced back to various effect modifiers. We account for dependency of the data by using standard errors that are clustered at the level of studies [65, 66]. In case there is incomplete or missing data from any articles or data that cannot be obtained by contacting the corresponding authors, the studies will be excluded from the analysis. The list of excluded articles at the stage of data-synthesis will be recorded and reported as an additional file at the final review.

The presence of publication bias will be assessed by visual inspection of funnel plots, the Egger tests [67], and comparisons of studies published in journals with grey literature. Sensitivity analysis will be employed to test the robustness of the studied outcomes and the effect of validity assessment. This will be done by conducting analyses of the inclusion and exclusion of studies with a high risk of bias.

All data analyzed during this study will be included in this published article and its additional information files.

This review study was supported by BASTA project and the authors would like to thank all stakeholders of the project who contributed to designing the review protocol. The authors would also like to thank Anne Nobel for helping to make the review topic more specific.

The review is implemented as part of Madina Bekchanova’s Ph.D, which is funded through the BASTA project. Luca Campion is also receiving funding from the BASTA project. Funding was provided by Fonds Wetenschappelijk Onderzoek (S000119NBA).

MB and RM jointly designed the study. MB developed the first draft of the protocol. MB and RM took the lead in the revision of the protocol. All other authors contributed to the revisions of the protocol with their critical comments. All authors read and approved the final manuscript.

Correspondence to Madina Bekchanova.

Not applicable.

Not applicable.

The authors declare that they have no competing interests.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

ROSES form.

Ecosystem services categorization.

Soil ecosystem services.

List of benchmark articles.

Critical appraisal benchmark articles.

A draft version of data extraction and coding sheet.

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.

Received: 30 June 2020

Accepted: 20 March 2021

Published: 31 March 2021

DOI: https://doi.org/10.1186/s13750-021-00223-1


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