有机固体废物厌氧消化综合研究:关于配置、运行参数、技术经济分析和当前趋势的综述

D.Jaya Prasanna Kumar , Ranjeet Kumar Mishra , Sampath Chinnam , Prakash Binnal , Naveen Dwivedi
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引用次数: 0

摘要

固体有机废物向环境的过度排放和积累是全球严重关切的问题。因此,高效的废物管理系统对于减轻对人类健康的危害、最大限度地减少对环境的有害影响以及确保生态系统的可持续发展非常重要。利用微生物或热能将有机废物转化为增值产品,这些方法通常被称为生化技术和热化学技术。生化工艺的优点是产品选择性较高,加工温度较低。这一类的主要转化过程是发酵和厌氧消化(AD)。厌氧消化是一种处理有机废物和创造各种附加值产品的潜在方法。在此,我们将介绍各种有机废物的消化率、微生物的作用、分解过程、辅助基质、消化器设计、沼气产量、副产品、环境影响以及该工艺的总体技术经济效益。此外,本综述还在不影响整体可行性和环境可持续性的前提下,就厌氧消化(AD)处理废物的新方向和未来研究提出了见解。
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A comprehensive study on anaerobic digestion of organic solid waste: A review on configurations, operating parameters, techno-economic analysis and current trends

The excessive discharge and accumulation of solid organic waste into the environment is of severe concern across the globe. Thus, an efficient waste management system is important to mitigate health risks to humans, minimize harmful impacts on the environment, and ensure a sustainable ecosystem. The organic waste is converted into value-added products either using microorganisms or heat energy; these methods are commonly known as biochemical and thermochemical techniques. The biochemical process has the advantage of higher selectivity of the products and lower processing temperatures. The principal conversion processes of this category are fermentation and anaerobic digestion (AD). This review article focuses on AD, a potential method for treating organic waste and creating a variety of products with added value. Here we present the digestibility of various organic wastes, the role of microorganisms, the decomposition process, co-substrates, digester designs, biogas yields, by-products, environmental impacts, and overall techno-economical effectiveness of the process. Further, this review offers insights into new directions for AD for waste treatment and future research without compromising the overall feasibility and environmental sustainability.

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