Tannery wastewater treatment: conventional and promising processes, an updated 20-year review

Jun Zhao, Qinglian Wu, Yuling Tang, Jianfei Zhou, Hongguang Guo
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引用次数: 38

Abstract

Mismanagement of various wastes especially waste water produced by tanning processes has caused serious environmental problems and ultimately impaired human health. Constant efforts have been making to alleviate the pollution of tannery wastewater (TWW), yet terminal treatment still takes dominance. In this review, research on TWW treatment from 2000 to 2021 was summarized, and main methods such as coagulation and flocculation, adsorption, biological treatment, membrane filtration, advanced oxidation process were briefly discussed. More detailed introduction was given to the method of electrochemical treatment since it has excellent performance such as environmental friendliness and high efficiency, hence attracting more and more research attention in recent years. In view of the harsh physi-chemical conditions of TWW, integrated or combined treatment methods are accordingly recommended with better performance and multi-function, however comprehensive studies on optimization of methods combination and cost-effectiveness are needed. The certain issues that the residue Cr in treatment sludge and high salinity in effluent still remain were put forward in this work and potential solutions were provided. Moreover, this review proposed the perspective that realizing multi-function, recycling, and intensification should be the developing direction for future TWW treatment. This review is expected to provide a general guide for researchers who aspire to ameliorate TWW pollution problems and understand various methods utilized in this field.

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制革厂废水处理:传统和有前途的工艺,更新的20年回顾
各种废物特别是制革过程产生的废水管理不善造成了严重的环境问题,并最终损害了人类健康。制革废水污染的治理一直在不断努力,但终端处理仍占主导地位。本文综述了2000年至2021年TWW的处理研究,并对混凝絮凝、吸附、生物处理、膜过滤、高级氧化等主要处理方法进行了简要介绍。由于电化学处理方法具有环保、高效等优良性能,近年来受到越来越多的研究关注,本文对其进行了较为详细的介绍。针对TWW恶劣的理化条件,推荐综合或联合处理的方法,其性能更好,功能更多功能,但需要对方法组合的优化和成本效益进行综合研究。提出了处理污泥中残留铬和出水含盐量高的问题,并提出了可能的解决方案。并提出了实现多功能化、资源化、集约化是未来TWW处理的发展方向。这篇综述希望为那些渴望改善TWW污染问题的研究人员和了解该领域使用的各种方法提供一般指导。图形抽象
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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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