斯里兰卡贾夫纳半岛地表水-地下水相互作用研究

C. Subramaniyam, Lalith Rajapakse
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引用次数: 0

摘要

少雨期的地下水枯竭和季风期的山洪暴发是斯里兰卡北部贾夫纳半岛确定的主要问题。利用过量径流对地下蓄水层进行人工补给被认为是一种可行的解决方案。采用层次分析法(AHP)建立了基于7种不同地下水行为影响因素的人工地下水回灌潜力区(GWPZM)。根据贾夫纳半岛独特的水文地质特征,制定了水资源行动计划,提出了合适的雨水质量和数量控制结构。在地下水有充分渗透潜力的地区,引入了拟建的主要人工补给单元。在泥沙淤积的泻湖地区设置了补给水库。在靠近洪泛平原的地区,建议修建干井和雨水质量控制设施。初步研究未发现古河道足迹。基于降雨-径流-淹没(RRI)模型的洪水分析结果表明,人工补水技术建立后,2017年洪涝事件的模拟淹没面积减少了41.47%。提出了用于实时监控的Web GIS的基本思想。
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A Study on Surface Water - Groundwater Interaction in the Jaffna Peninsula, Sri Lanka
Groundwater depletion during the low rainfall period and flash floods during the monsoonal period are the predominant issues identified in the Jaffna Peninsula, the Northern part of Sri Lanka. The managed artificial recharge of groundwater aquifers using excess runoff is considered a feasible solution. Analytical Hierarchy Process (AHP) analysis was initially performed to develop an Artificial Groundwater Recharging Potential Zone Mapping (GWPZM) based on seven different groundwater behavioural influencing factors. A water resource action plan was developed to propose suitable stormwater quality and quantity controlling structures according to the unique hydrogeological behaviour of the Jaffna Peninsula. The proposed major artificial recharging units were introduced in the areas with adequate groundwater infiltration potential sites. Recharging reservoirs were assigned for the lagoon region with silt sedimentation. Dry wells were proposed for the region adjacent to the floodplain along with stormwater quality control structures. Paleochannel footprints were not found in the preliminary studies. Flood analysis using Rainfall-Runoff-Inundation (RRI) Model indicated that the simulated inundation area of the 2017 flood event is reduced by 41.47% after the establishment of artificial recharging techniques. A fundamental idea of Web GIS was suggested for real-time monitoring purposes.
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