Brayan Alexis Parra-Orobio, Jonathan Soto-Paz, Edgar Ricardo Oviedo-Ocaña, Seyed Alireza Vali, Antoni Sánchez
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引用次数: 0
Abstract
A recently strategy applied to anaerobic digestion (AD) is the use of biochar (BC) obtained from the pyrolysis of different organic waste. The PRISMA protocol-based review of the most recent literature data from 2011-2022 was used in this study. The review focuses on research papers from Scopus® and Web of Knowledge®. The review protocol used permits to identify 169 articles. The review indicated a need for further research in the following challenges on the application of BC in AD: i) to increase the use of BC in developing countries, which produce large and diverse amounts of waste that are the source of production of this additive; ii) to determine the effect of BC on the AD of organic waste under psychrophilic conditions; iii) to apply tools of machine learning or robust models that allow the process optimization; iv) to perform studies that include life cycle and technical-economic analysis that allow identifying the potential of applying BC in AD in large-scale systems; v) to study the effects of BC on the agronomic characteristics of the digestate once it is applied to the soil and vi) finally, it is necessary to deepen in the effect of BC on the dynamics of nitrogen and microbial consortia that affect AD, considering the type of BC used. In the future, it is necessary to search for new solutions in terms of the transport phenomena that occurs in AD with the use of BC using robust and precise mathematical models at full-scale conditions.
最近应用于厌氧消化(AD)的一种策略是使用从不同有机废物的热解中获得的生物炭(BC)。本研究使用了基于PRISMA协议的2011-2022年最新文献数据综述。综述的重点是Scopus®和Web of Knowledge®的研究论文。审查协议使用许可证来识别169篇文章。审查表明,有必要进一步研究BC在AD中的应用面临的以下挑战:一)在发展中国家增加BC的使用,这些国家产生了大量多样的废物,这些废物是这种添加剂的生产来源;ii)在嗜冷条件下测定BC对有机废物AD的影响;iii)应用允许过程优化的机器学习工具或鲁棒模型;iv)进行包括生命周期和技术经济分析在内的研究,以确定在大规模系统中应用BC的潜力;v) 研究BC在施用到土壤中后对消化物农艺特性的影响,以及vi)最后,考虑到所使用的BC类型,有必要加深BC对影响AD的氮和微生物群落动力学的影响。未来,有必要在全尺寸条件下使用稳健和精确的数学模型,通过使用BC,就AD中发生的传输现象寻找新的解决方案。
期刊介绍:
Bioengineered provides a platform for publishing high quality research on any aspect of genetic engineering which involves the generation of recombinant strains (both prokaryote and eukaryote) for beneficial applications in food, medicine, industry, environment and bio-defense.