Prevention of water pollution through combined sewer overflow using high-speed biofiltration in urban watershed

Water-Energy Nexus Pub Date : 2023-10-12 DOI:10.1016/j.wen.2023.10.002

Ingyu Lee , Minsoo Kim , Antukh Tatsiana , Jung-joon Hwang , Yongjun Yoon , Hyunook Kim

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Abstract

Over recent decades, the rural areas of Korea, including containing source waters, have become extensively developed. Combined sewer systems (CSSs) have been constructed to collect the sewage generated from these areas. Presently, it is common to experience localized heavy rain events, likely due to climate change, and sometimes, the volume of rainfall can become too high for a CSS to handle. In these cases, combined sewer overflow (CSOs) occurs, contaminating surface water, which may have been used as source water. Therefore, the Korean government will begin regulating the biochemical oxygen demand (BOD) of CSOs occurring during first flushes of less than 40 mg/L from 2024 onwards. In this study, a biofiltration-based technology was proposed to treat CSOs. Thus, this study aimed to remove BOD from CSO using this biofiltration system to contain cube-type media. For this, two different loading rates were tested on a pilot scale. Although the proposed system resulted in a footprint of only 10 % of that of a conventional activated sludge system, it was still capable of achieving efficient BOD removal. At a high loading rate, BOD removal efficiency was observed at approximately 53 %, and when this loading rate was reduced by 50 %, the removal efficiency was slightly improved to about 58 %. In both cases, the BODs of treated CSOs could be maintained below the proposed future standard: 31 mg/L and 28 mg/L for high and low loading rates, respectively. Therefore, the proposed system could potentially be preventing environmental contamination from COSs.

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城市小流域高速生物过滤防治合流溢流水污染

近几十年来，包括水源地在内的韩国农村地区得到了广泛的开发。已经建造了联合下水道系统来收集这些地区产生的污水。目前，局部暴雨事件很常见，可能是由于气候变化，有时降雨量可能会变得太高，CSS无法处理。在这些情况下，会发生下水道联合溢流，污染可能用作水源的地表水。因此，从2024年起，韩国政府将开始调节首次冲洗时CSO的生化需氧量（BOD）低于40 mg/L。在本研究中，提出了一种基于生物过滤的技术来处理CSO。因此，本研究旨在使用这种含有立方体型介质的生物过滤系统从CSO中去除BOD。为此，在中试规模上测试了两种不同的加载速率。尽管所提出的系统的占地面积仅为传统活性污泥系统的10%，但它仍然能够实现有效的BOD去除。在高负载率下，观察到BOD去除效率约为53%，并且当该负载率降低50%时，去除效率略微提高至约58%。在这两种情况下，处理过的CSO的BOD都可以保持在拟议的未来标准以下：高负荷率和低负荷率分别为31 mg/L和28 mg/L。因此，拟议的系统有可能防止COS造成的环境污染。

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-Energy Nexus

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