| Literature DB >> 33248779 |
Qiang Hu1, Janelle Jung2, Dexiang Chen2, Ken Leong3, Shuang Song4, Fanghua Li1, Babu Cadiam Mohan5, Zhiyi Yao5, Arun Kumar Prabhakar1, Xuan Hao Lin6, Ee Yang Lim5, Le Zhang1, Gupta Souradeep7, Yong Sik Ok8, Harn Wei Kua9, Sam F Y Li6, Hugh T W Tan4, Yanjun Dai10, Yen Wah Tong5, Yinghong Peng11, Stephen Joseph12, Chi-Hwa Wang13.
Abstract
Biochar, produced as a by-product of pyrolysis/gasification of waste biomass, shows great potential to reduce the environment impact, address the climate change issue, and establish a circular economy model. Despite the promising outlook, the research on the benefits of biochar remains highly debated. This has been attributed to the heterogeneity of biochar itself, with its inherent physical, chemical and biological properties highly influenced by production variables such as feedstock types and treating conditions. Hence, to enable meaningful comparison of results, establishment of an agreed international standard to govern the production of biochar for specific uses is necessary. In this study, we analyzed four key uses of biochar: 1) in agriculture and horticulture, 2) as construction material, 3) as activated carbon, and 4) in anaerobic digestion. Then the guidelines for the properties of biochar, especially for the concentrations of toxic heavy metals, for its environmental friendly application were proposed in the context of Singapore. The international status of the biochar industry code of practice, feedback from Singapore local industry and government agencies, as well as future perspectives for the biochar industry were explained.Entities:
Keywords: Activated carbon; Agriculture and horticulture; Anaerobic digestion; Biochar; Construction material
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Year: 2020 PMID: 33248779 DOI: 10.1016/j.scitotenv.2020.143820
Source DB: PubMed Journal: Sci Total Environ ISSN: 0048-9697 Impact factor: 7.963