Treatment of Water and Wastewater for Reuse and Energy Generation-Emerging Technologies

Water and Wastewater Treatment Pub Date : 2019-07-24 DOI:10.5772/INTECHOPEN.84474

Emmanuel Kweinor Tetteh, S. Rathilal, M. Chetty, E. Armah, D. Asante-Sackey

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引用次数: 21

Abstract

Fresh water quality and supply, particularly for domestic and industrial purposes, are deteriorating with contamination threats on water resources. Multiple technologies in the conventional wastewater treatment (WWT) settings have been adopted to purify water to a desirable quality. However, the design and selection of a suitable cost-effective treatment scheme for a catchment area are essential and have many considerations including land availability, energy, effluent quality and operational simplicity. Three emerging technologies are discussed, including anaerobic digestion, advanced oxidation processes (AOPs) and membrane technology, which holds great promise to provide integrational alternatives for manifold WWT process and distribution systems to mitigate contaminants and meet accept-able limitations. The main applications, basic principles, merits and demerits of the aforementioned technologies are addressed in relation to their current limitations and future research needs in terms of renewable energy. Hence, the advancement in manufacturing industry along with WWT blueprints will enhance the application of these technologies for the sustainable management and conservation of water.

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水和废水处理的再利用和能源生产——新兴技术

淡水的质量和供应，特别是家庭和工业用水的质量和供应正在恶化，水资源受到污染的威胁。在常规废水处理(WWT)设置中采用了多种技术来将水净化到理想的质量。然而，为集水区设计和选择一个合适的具有成本效益的处理方案是必不可少的，需要考虑许多因素，包括土地供应、能源、污水质量和操作简单性。讨论了三种新兴技术，包括厌氧消化、高级氧化工艺(AOPs)和膜技术，它们有望为多种污水处理和分配系统提供集成替代方案，以减轻污染物并满足可接受的限制。讨论了上述技术的主要应用、基本原理、优点和缺点，以及它们目前的局限性和未来在可再生能源方面的研究需求。因此，制造业的进步以及污水处理的蓝图将加强这些技术在可持续管理和节约用水方面的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water and Wastewater Treatment

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