- Title
- Evaluate the role of biochar during the organic waste composting process: A critical review
- Creator
- Nguyen, Minh Ky; Lin, Chitsan; Hoang, Hong Giang; Sanderson, Peter; Dang, Bao Trong; Bui, Xuan Thanh; Nguyen, Ngoc Son Hai; Vo, Dai-Viet N.; Tran, Huu Tuan
- Relation
- Chemosphere Vol. 299, Issue July 2022, no. 134488
- Publisher Link
- http://dx.doi.org/10.1016/j.chemosphere.2022.134488
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2022
- Description
- Composting is very robust and efficient for the biodegradation of organic waste; however secondary pollutants, namely greenhouse gases (GHGs) and odorous emissions, are environmental concerns during this process. Biochar addition to compost has attracted the interest of scientists with a lot of publication in recent years because it has addressed this matter and enhanced the quality of compost mixture. This review aims to evaluate the role of biochar during organic waste composting and identify the gaps of knowledge in this field. Moreover, the research direction to fill knowledge gaps was proposed and highlighted. Results demonstrated the commonly referenced conditions during composting mixed biochar should be reached such as pH (6.5-7.5), moisture (50-60%), initial C/N ratio (20-25:1), biochar doses (1-20% w/w), improved oxygen content availability, enhanced the performance and humification, accelerating organic matter decomposition through faster microbial growth. Biochar significantly decreased GHGs and odorous emissions by adding a 5-10% dosage range due to its larger surface area and porosity. On the other hand, with high exchange capacity and interaction with organic matters, biochar enhanced the composting performance humification (e.g., formation humic and fulvic acid). Biochar could extend the thermophilic phase of composting, reduce the pH value, NH3 emission, and prevent nitrogen losses through positive effects to nitrifying bacteria. The surfaces of the biochar particles are partly attributed to the presence of functional groups such as Si-O-Si, OH, COOH, CO, C-O, N for high cation exchange capacity and adsorption. Adding biochars could decrease NH3 emissions in the highest range up to 98%, the removal efficiency of CH4 emissions has been reported with a wide range greater than 80%. Biochar could absorb volatile organic compounds (VOCs) more than 50% in the experiment based on distribution mechanisms and surface adsorption and efficient reduction in metal bioaccessibilities for Pb, Ni, Cu, Zn, As, Cr and Cd. By applicating biochar improved the compost maturity by promoting enzymatic activity and germination index (>80%). However, physico-chemical properties of biochar such as particle size, pore size, pore volume should be clarified and its influence on the composting process evaluated in further studies.
- Subject
- additives; microorganism; nitrogen losses; biochar
- Identifier
- http://hdl.handle.net/1959.13/1487516
- Identifier
- uon:52165
- Identifier
- ISSN:0045-6535
- Language
- eng
- Reviewed
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