Process benefits of ozone/BAC as pretreatment to membrane-based advanced treatment for direct potable reuse

IF 4.3 4区 环境科学与生态学 Q2 ENGINEERING, ENVIRONMENTAL
Water Reuse Pub Date : 2024-03-22 DOI:10.2166/wrd.2024.113
R. Trussell, A. Pisarenko
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引用次数: 0

Abstract

The state of California, USA, has developed regulations for projects that want to pursue direct potable reuse. One of the most significant requirements is that the treatment train must include ozone and biological activated carbon (ozone/BAC) as pretreatment to a membrane-based treatment train. Ozone/BAC mitigates chemical peaks and diversifies the removal mechanisms of low molecular weight compounds likely to persist in advanced treated water. This paper will present the process benefits of ozone/BAC as pretreatment to the membrane-based treatment train based on testing at a 3.9 MLD demonstration facility in San Diego, California, USA. One of the most significant benefits of ozone/BAC pretreatment is the improved water quality that benefits not only the product water produced for potable consumption but also the residual stream that is generated with the implementation of the RO process, commonly known as RO concentrate. This improved water quality originates from TOC reduction which is achieved through a combination of chemical oxidation with ozonation and biological growth in the BAC process that results in reduced operating pressures and chemical use for the membrane systems. These process benefits were quantified to develop an overall water cost comparison between a DPR and an indirect potable reuse train.
将臭氧/BAC 作为膜法高级处理的预处理,用于直接饮用水回用的工艺优势
美国加利福尼亚州针对希望直接进行饮用水回用的项目制定了相关规定。其中最重要的一项要求是,处理系统必须包括臭氧和生物活性碳(臭氧/生物活性碳),作为膜处理系统的预处理。臭氧/生物活性炭可减轻化学峰值,并使低分子量化合物的去除机制多样化,这些化合物可能会在高级处理水中持续存在。本文将根据美国加利福尼亚州圣地亚哥 3.9 MLD 示范设施的测试结果,介绍臭氧/BAC 作为膜处理系统预处理的工艺优势。臭氧/BAC 预处理最显著的优点之一是改善水质,这不仅有利于生产出可供饮用的产品水,还有利于反渗透工艺实施过程中产生的残留水流(通常称为反渗透浓缩液)。水质的改善源于 TOC 的减少,TOC 的减少是通过化学氧化与臭氧和 BAC 工艺中的生物生长相结合来实现的,从而降低了膜系统的运行压力和化学品用量。对这些工艺优势进行量化后,可对 DPR 和间接饮用水回用系统的总体水成本进行比较。
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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来源期刊
Water Reuse
Water Reuse Multiple-
CiteScore
6.20
自引率
8.90%
发文量
0
审稿时长
7 weeks
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