利用热化学转化技术从废水污泥中回收资源并将其转化为能源以支持循环经济:综述

IF 2.35
Raaj R. Bora, Ruth E. Richardson, Fengqi You
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引用次数: 40

摘要

随着过去几十年全球人口的快速增长,对食品和能源等资源的需求也相应激增。因此,产生废物的速度和由此产生的污染程度急剧上升。目前,大多数有机固体废物要么被土地利用,要么被送到垃圾填埋场,剩下的部分被焚烧或厌氧消化。然而,由于目前强调减少排放、养分回收、清洁能源生产和循环经济,必须重新审视处理这些废物的一些传统方法,并挖掘它们在环境和经济效益方面基本上尚未实现的潜力。废水污泥具有高有机含量和相当稳定的供应,为使用热化学转化技术实施其中一些策略提供了很好的机会,热化学转化技术被认为是升级回收此类废物流的替代方案之一。本文总结了利用热化学转化技术对废水污泥进行增值的重要研究成果,并对所涉及的不同技术和操作参数之间的关系进行了推断和确定。随后各节强调这些技术及其相应产品在废物转化为能源、养分回收和循环经济进展等更广泛领域的环境和经济影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Resource recovery and waste-to-energy from wastewater sludge via thermochemical conversion technologies in support of circular economy: a comprehensive review

Resource recovery and waste-to-energy from wastewater sludge via thermochemical conversion technologies in support of circular economy: a comprehensive review

With the rapid rise in global population over the past decades, there has been a corresponding surge in demand for resources such as food and energy. As a consequence, the rate of waste generation and resultant pollution levels have risen drastically. Currently, most organic solid wastes are either land applied or sent to landfills, with the remaining fraction incinerated or anaerobically digested. However, with the current emphasis on the reduction of emissions, nutrient recovery, clean energy production and circular economy, it is important to revisit some of the conventional methods of treating these wastes and tap into their largely unrealized potential in terms of environmental and economic benefits. Wastewater sludge, with its high organic content and fairly constant supply, provides a great opportunity to implement some of these strategies using thermochemical conversion technologies, which are considered as one of the alternatives for upcycling such waste streams. This paper summarizes the results of prominent studies for valorizing wastewater sludge through thermochemical conversion technologies while drawing inferences and identifying relationships between different technical and operating parameters involved. This is followed by sections emphasizing the environmental and economic implications of these technologies, and their corresponding products in context of the broader fields of waste-to-energy, nutrient recycling and the progress towards a circular economy.

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