不同地表水预期短缺情景下的含水层响应证明:以埃及尼罗河三角洲东南部边缘为例

Enass A. Elimy, M. Omar, Ahmed A. A. Hassan, G. Nasser, P. Riad
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引用次数: 0

摘要

地下水被认为是埃及重要的水源之一。然而,预计未来几十年将面临许多挑战。目前所关注的东尼罗河三角洲边缘地区是埃及三十多年来最发达的地区之一。将特别注意在高地沙漠地带和毗邻和环绕伊斯梅利亚运河的低地沙漠地带现有的大型填海土地(地表水/地下水)。在尼罗河水系地表水普遍短缺的预期压力下,由于GERD的建设、人口的快速增长和城市化,预计将对地下水系统在地下水位和水量预算方面产生直接影响。本研究的主要研究问题是:在现有大型项目可持续性危机的情况下,尼罗河三角洲东南部边缘的尼罗河三角洲含水层的反应是什么?利用Visual MODFLOW模拟了不同缺水情景下灌渠的现状及预期变化。该模型对1992-2015年期间的初始水文地质条件进行了模拟和校准。以最终定标为初始条件,对模型进行了场景测试。对标定后的区域地下水模型提出了4种情景,并进行了模拟,以评价和预测20 a来第四纪含水层在地表水位下降过程中的响应。这些场景是:1;地表水位减少10%,排水盈余,这个表达式表示全年对含水层的净补给,2。6个月(夏季、冬季)地表水位相对季节性排水盈余下降10%;地表水水位减少20%,全年排水盈余和4。在六个月(夏季、冬季)的季节排水盈余中,地表水位下降20%。各模拟情景的结果均显示出地下水位的变化和波动,而储水量变化的最大值出现在情景4。其中,这一价值在2017年至2037年间下降了52.9%。但在所有情景中,含水层储水量的变化仍然稳定并持续增加,在情景2和情景4下分别增加了36.5%和29%。在地表水减少的情况下,这一储存量可用于抽水井抽水。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Testifying the Aquifer Response Under the Stress of Different Scenarios of an Expected Shortage of Surface Water: Case Study South Eastern Nile Delta Fringes, Egypt
Groundwater is considered one of the important sources in Egypt. However, it is expected to face many challenges in the next few decades. The Eastern Nile delta fringes region, the current area of interest, is one of the most highly developed areas in Egypt for more than three decades. Special attention will be given to the existing large reclamation lands (surface water/groundwater) in the high desert lands and low ones which are adjacent and surrounding the Ismailia canal. Under the expected stress of extensive shortage in surface water of the Nile water system, as a result of the construction of GERD, the rapid population and urbanization, a direct impact on the groundwater system in terms of groundwater levels and water budget will be expected. The main research question of the present study is: what is the response of the Nile Delta Aquifer in the south Eastern Nile Delta Fringes in the case of crisis for the sustainability of existing large projects? Visual MODFLOW was used to simulate the existing condition of the irrigation canals and the expected changes under different scenarios of water shortage. The model was simulated and calibrated for the initial hydrogeological conditions throughout the period (1992-2015). The model was tested for scenarios based on the final calibration as an initial condition. Four scenarios were proposed and simulated for the calibrated regional groundwater model at the study area to evaluate and predict the response of the quaternary aquifer during the decrease of surface water levels for 20 years. These scenarios are: 1. Decrease of the surface water levels by 10% against drainage surplus this expression represents the net recharge to the aquifer all the year, 2. Decrease of the surface water levels by 10% against seasonal drainage surplus for six months (summer, winter), 3. Decrease of the surface water levels by 20% against drainage surplus all the year and 4. Decrease of the surface water levels by 20% against seasonal drainage surplus for six months (summer, winter). The results of simulated scenarios showed a change and fluctuation in the groundwater levels, while the maximum value of the change in storage was found in scenario 4.in which this value was decreased by 52.9 % between 2017 and 2037. but in all scenarios, the change in storage of the aquifer still stable and continuously increase, by 36.5% under scenario 2 and 29 % under scenario 4. This volume of storage will be available for pumping by extraction wells in case of surface water reduction.
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