Innovative management strategies for groundwater logging in Aswan city and maximization of its benefits using modeling techniques

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Hickmat Hossen, Ahmed S. Nour-Eldeen, Ismail Abd-Elaty, Ali M. Hamdan, Abdelazim Negm, Mohamed Elsahabi
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Abstract

Groundwater levels vary from region to another and sometimes in different zones in the same country due to different boundary conditions and extraction rates. Therefore, understanding intricate aquifer systems and predicting how they will react to hydrological changes require the use of groundwater models. In Egypt, the groundwater levels in the Nile Delta aquifer decrease causing problems to the delta ecosystem while it is rising in Aswan area due to the presence of Nasser Lake causing several damages to the city’s buildings and infrastructures. In order to maximize its benefits and lessen the harm brought on by inadequate groundwater management in the city of Aswan, the height of the groundwater level in that city was examined, appraised, and groundwater management scenarios were established in this study. To achieve the objectives of the study, a simulation of Aswan aquifer’s groundwater system is built based on a quasi-three-dimensional transient groundwater flow model using MODFLOW. The model was calibrated and verified. Four management scenarios are tested. The fifth scenario, in this scenario, the four scenarios combined together at the same time and with the same conditions and ratios were proposed to be implemented. The results of the proposal to implement the four scenarios together showed that the rates of decline in groundwater levels in the last stage will be 12.44%. The study results reveal that a better understanding of the simulated long-term average spatial distribution of water balance components is useful for managing and planning the available water resources in the Aswan aquifer.

Abstract Image

阿斯旺市地下水采伐创新管理策略及利用建模技术实现效益最大化
由于边界条件和开采率的不同,不同地区的地下水位各不相同,有时同一国家不同地区的地下水位也不尽相同。因此,要了解错综复杂的含水层系统并预测它们对水文变化的反应,就需要使用地下水模型。在埃及,尼罗河三角洲含水层的地下水位下降,给三角洲的生态系统带来了问题,而阿斯旺地区的地下水位却因纳赛尔湖的存在而上升,给城市的建筑和基础设施造成了一些破坏。为了最大限度地提高阿斯旺市地下水的效益,减少因地下水管理不善带来的危害,本研究对该市的地下水位高度进行了检查和评估,并制定了地下水管理方案。为实现研究目标,利用 MODFLOW 准三维瞬态地下水流模型建立了阿斯旺含水层地下水系统模拟。对模型进行了校准和验证。测试了四种管理方案。在第五种方案中,建议在相同的条件和比例下同时实施四种方案。同时实施四个方案的建议结果显示,最后阶段地下水位的下降率将为 12.44%。研究结果表明,更好地了解模拟的水平衡各组成部分的长期平均空间分布情况,有助于管理和规划阿斯旺含水层的可用水资源。
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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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