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      Biochar for agronomy, animal farming, anaerobic digestion, composting, water treatment, soil remediation, construction, energy storage, and carbon sequestration: a review

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          Abstract

          In the context of climate change and the circular economy, biochar has recently found many applications in various sectors as a versatile and recycled material. Here, we review application of biochar-based for carbon sink, covering agronomy, animal farming, anaerobic digestion, composting, environmental remediation, construction, and energy storage. The ultimate storage reservoirs for biochar are soils, civil infrastructure, and landfills. Biochar-based fertilisers, which combine traditional fertilisers with biochar as a nutrient carrier, are promising in agronomy. The use of biochar as a feed additive for animals shows benefits in terms of animal growth, gut microbiota, reduced enteric methane production, egg yield, and endo-toxicant mitigation. Biochar enhances anaerobic digestion operations, primarily for biogas generation and upgrading, performance and sustainability, and the mitigation of inhibitory impurities. In composts, biochar controls the release of greenhouse gases and enhances microbial activity. Co-composted biochar improves soil properties and enhances crop productivity. Pristine and engineered biochar can also be employed for water and soil remediation to remove pollutants. In construction, biochar can be added to cement or asphalt, thus conferring structural and functional advantages. Incorporating biochar in biocomposites improves insulation, electromagnetic radiation protection and moisture control. Finally, synthesising biochar-based materials for energy storage applications requires additional functionalisation.

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          Most cited references766

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          Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report)

          Gas adsorption is an important tool for the characterisation of porous solids and fine powders. Major advances in recent years have made it necessary to update the 1985 IUPAC manual on Reporting Physisorption Data for Gas/Solid Systems. The aims of the present document are to clarify and standardise the presentation, nomenclature and methodology associated with the application of physisorption for surface area assessment and pore size analysis and to draw attention to remaining problems in the interpretation of physisorption data.
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            Biochar as a sorbent for contaminant management in soil and water: a review.

            Biochar is a stable carbon-rich by-product synthesized through pyrolysis/carbonization of plant- and animal-based biomass. An increasing interest in the beneficial application of biochar has opened up multidisciplinary areas for science and engineering. The potential biochar applications include carbon sequestration, soil fertility improvement, pollution remediation, and agricultural by-product/waste recycling. The key parameters controlling its properties include pyrolysis temperature, residence time, heat transfer rate, and feedstock type. The efficacy of biochar in contaminant management depends on its surface area, pore size distribution and ion-exchange capacity. Physical architecture and molecular composition of biochar could be critical for practical application to soil and water. Relatively high pyrolysis temperatures generally produce biochars that are effective in the sorption of organic contaminants by increasing surface area, microporosity, and hydrophobicity; whereas the biochars obtained at low temperatures are more suitable for removing inorganic/polar organic contaminants by oxygen-containing functional groups, electrostatic attraction, and precipitation. However, due to complexity of soil-water system in nature, the effectiveness of biochars on remediation of various organic/inorganic contaminants is still uncertain. In this review, a succinct overview of current biochar use as a sorbent for contaminant management in soil and water is summarized and discussed.
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              Inhibition of anaerobic digestion process: a review.

              Anaerobic digestion is an attractive waste treatment practice in which both pollution control and energy recovery can be achieved. Many agricultural and industrial wastes are ideal candidates for anaerobic digestion because they contain high levels of easily biodegradable materials. Problems such as low methane yield and process instability are often encountered in anaerobic digestion, preventing this technique from being widely applied. A wide variety of inhibitory substances are the primary cause of anaerobic digester upset or failure since they are present in substantial concentrations in wastes. Considerable research efforts have been made to identify the mechanism and the controlling factors of inhibition. This review provides a detailed summary of the research conducted on the inhibition of anaerobic processes. The inhibitors commonly present in anaerobic digesters include ammonia, sulfide, light metal ions, heavy metals, and organics. Due to the difference in anaerobic inocula, waste composition, and experimental methods and conditions, literature results on inhibition caused by specific toxicants vary widely. Co-digestion with other waste, adaptation of microorganisms to inhibitory substances, and incorporation of methods to remove or counteract toxicants before anaerobic digestion can significantly improve the waste treatment efficiency.
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                Author and article information

                Contributors
                aosmanahmed01@qub.ac.uk
                Journal
                Environ Chem Lett
                Environ Chem Lett
                Environmental Chemistry Letters
                Springer International Publishing (Cham )
                1610-3653
                1610-3661
                7 May 2022
                7 May 2022
                : 1-101
                Affiliations
                [1 ]GRID grid.4777.3, ISNI 0000 0004 0374 7521, School of Chemistry and Chemical Engineering, , Queen’s University Belfast, ; David Keir Building, Stranmillis Road, Belfast, BT9 5AG Northern Ireland UK
                [2 ]GRID grid.412310.5, ISNI 0000 0001 0688 9267, Graduate School of Animal and Food Hygiene, , Obihiro University of Agriculture and Veterinary Medicine, ; Obihiro, Hokkaido 080-8555 Japan
                [3 ]GRID grid.252487.e, ISNI 0000 0000 8632 679X, Department of Animal and Poultry Hygiene and Environmental Sanitation, Faculty of Veterinary Medicine, , Assiut University, ; Assiut, 71526 Egypt
                [4 ]GRID grid.412603.2, ISNI 0000 0004 0634 1084, Department of Chemistry, Department of Chemistry and Earth Sciences, College of Arts and Sciences, , Qatar University, ; 2713 Doha, Qatar
                [5 ]GRID grid.440879.6, ISNI 0000 0004 0578 4430, Environmental Science Department, Faculty of Science, , Port Said University, ; Port Said, Egypt
                [6 ]Egyptian Propylene and Polypropylene Company (EPPC), Port-Said, Egypt
                [7 ]GRID grid.429648.5, ISNI 0000 0000 9052 0245, National Center for Radiation Research and Technology (NCRRT), , Egyptian Atomic Energy Authority (EAEA), ; Cairo, Egypt
                [8 ]GRID grid.430813.d, Department of Chemistry -Faculty of Applied Science, , Taiz University, ; P.O.Box 6803, Taiz, Yemen
                [9 ]GRID grid.411303.4, ISNI 0000 0001 2155 6022, Faculty of Engineering, , Al-Azhar University, ; Cairo, 11651 Egypt
                [10 ]Cemart for Building Materials and Insulation, postcode 11765, Cairo, Egypt
                [11 ]GRID grid.15276.37, ISNI 0000 0004 1936 8091, Institute of Food and Agricultural Sciences, Soil and Water Science, , The University of Florida, ; Gainesville, FL 32611 USA
                Author information
                http://orcid.org/0000-0003-2788-7839
                https://orcid.org/0000-0002-8522-2731
                Article
                1424
                10.1007/s10311-022-01424-x
                9077033
                35571983
                c1644916-f07f-4adc-8f26-04ab50d51e69
                © The Author(s) 2022

                Open AccessThis 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/.

                History
                : 4 February 2022
                : 22 February 2022
                Funding
                Funded by: SEUPB
                Award ID: Bryden Centre project (Project ID VA5048)
                Award Recipient :
                Categories
                Review

                Environmental chemistry
                climate change mitigation,biochar applications,carbon sink,biochar-based fertilisers,environmental remediation,energy storage,biochar in construction

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