Bank filtration for climate resilience: potentiality of a new site along the Ismailia Canal in Egypt

IF 0.9 Q3 GEOLOGY Geologos Pub Date : 2022-04-01 DOI:10.2478/logos-2022-0004
K. Ghodeif, R. A. Wahaab, T. Grischek, H. Afifi, Neveen Wahsh
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Abstract

Abstract Bank filtration (BF) is a nature-based solution that can provide safe drinking water at a low cost, in being a green technology that benefits from natural ecosystem services and saves energy as well. The objective of the present paper is to evaluate the potentiality of a new site for bank filtration along a surface water source that experiences periods of both high and low flow. This site is located along the Ismailia Canal in the eastern Nile Delta fringe of Egypt. The present evaluation is based on exploratory drilling, installation of monitoring infrastructure and monitoring of both water level and water quality parameters for one year. The site has favourable hydrogeological conditions; the mean hydraulic conductivity of aquifer materials (sand and gravel) is 18.98 m/day. Moreover, there is a hydraulic connection between canal and aquifer; under steady conditions, the canal feeds the aquifer. Using different tracers, such as Cl, EC, Sr and SO4, the average bank filtration share is in excess of 95%. BF has reduced the particulates (turbidity) by 96%, total coliform by 99 % and total organic carbon (TOC) expressed as ultra-violet absorbance at 254 wavelengths (UVA254) by 44%. In addition, BF reduces concentrations of disinfection by-products due to its ability to remove organic matter. The potential degradation of TOC in the canal bed sediments may cause the release of iron (Fe) and manganese (Mn) to the bank filtrate water; this process is exaggerated during low-flow periods. Compared to conventional water treatment, BF is a cost-effective green technology, because no chemicals are used and no waste products are generated.
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银行过滤对气候适应性的影响:埃及伊斯梅利亚运河沿岸新址的潜力
摘要:水库过滤(BF)是一种基于自然的解决方案,可以以低成本提供安全的饮用水,是一种受益于自然生态系统服务并节省能源的绿色技术。本文的目的是评估沿高、低流量时期的地表水水源建立河岸过滤新址的潜力。该遗址位于埃及尼罗河三角洲东部的伊斯梅利亚运河沿岸。目前的评价是基于勘探钻探、监测基础设施的安装以及对一年的水位和水质参数的监测。场地水文地质条件优越;含水层材料(砂和砾石)的平均导水率为18.98 m/d。此外,运河与含水层之间存在水力联系;在稳定的条件下,运河为含水层供水。使用不同的示踪剂,如Cl、EC、Sr和SO4,平均银行过滤份额超过95%。BF使颗粒(浊度)减少96%,总大肠菌群减少99%,总有机碳(TOC)(以254波长的紫外线吸收度表示)减少44%。此外,由于其去除有机物的能力,BF降低了消毒副产物的浓度。运河河床沉积物中TOC的潜在降解可能导致铁(Fe)和锰(Mn)向河岸滤水释放;在低流量时期,这个过程被夸大了。与传统的水处理相比,高炉是一种经济高效的绿色技术,因为它不使用化学品,也不产生废物。
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来源期刊
Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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