Crystalline Aquifers(结晶含水层)研究综述
Crystalline Aquifers 结晶含水层 - In this work the arsenic pollution issue has been addressed by studying water-rock interaction processes and applying reaction path modelling as a tool to understand the rock-to-water release of As and the fate of this natural pollutant in crystalline aquifers. [1] Modelling of heterogeneous aquifers, such as crystalline aquifers, is often difficult and, flow and transport predictions are always uncertain, suffering of our imperfect knowledge of the spatial distribution of aquifer parameters. [2] Iron, zinc, and lithium concentrations for unfiltered samples in the well were at least three times greater than the mean filtered sample concentrations reported for crystalline aquifers in the Black Hills. [3] Crystalline aquifers are present in most parts of southern India with limited resources of groundwater. [4] Groundwater extracted from crystalline aquifers is the main water supply in many parts of the world, particularly in developing regions such as Sub-Saharan Africa, Brazil and India. [5] Crystalline aquifers are among the most complex groundwater systems, requiring adequate methods for realistic characterization and suitable techniques for improving the long-term management of groundwater resources. [6] The present work applied the HydroGeoSphere (HGS) model in humid tropical area to Koue watershed scale to simulate flows in porous and fractured area of crystalline aquifers. [7]在这项工作中,砷污染问题已通过研究水-岩石相互作用过程和应用反应路径模型作为了解 As 从岩石到水的释放以及这种天然污染物在结晶含水层中的去向的工具来解决。 [1] 非均质含水层(如结晶含水层)的建模通常很困难,而且流量和输运预测总是不确定的,我们对含水层参数空间分布的了解不完善。 [2] 井中未过滤样品的铁、锌和锂浓度至少是黑山结晶含水层报告的平均过滤样品浓度的三倍。 [3] 印度南部大部分地区存在结晶含水层,地下水资源有限。 [4] 从结晶含水层中提取的地下水是世界许多地区的主要供水,特别是在撒哈拉以南非洲、巴西和印度等发展中地区。 [5] 结晶含水层是最复杂的地下水系统之一,需要适当的方法来进行真实的表征和适当的技术来改善地下水资源的长期管理。 [6] 本工作将湿润热带地区的 HydroGeoSphere (HGS) 模型应用于 Koue 流域尺度模拟 流动在结晶含水层的多孔和裂缝区域。 [7]
crystalline aquifers located
In this work, a detailed geochemical characterization was performed to define the source of natural pollution of two groundwaters (samples Pc and Bg) coming from deep crystalline aquifers located in the Calabria region (southern Italy) and to define and optimize the most appropriate water treatment strategy. [1] The chemical composition of 38 brands of bottled water from crystalline aquifers located in the South and Southeast regions of Brazil was determined for understanding the rock-water interaction processes. [2]在这项工作中,进行了详细的地球化学表征,以确定来自卡拉布里亚地区(意大利南部)深层结晶含水层的两种地下水(样品 Pc 和 Bg)的自然污染源,并确定和优化最合适的水处理战略。 [1] 确定了来自巴西南部和东南部地区结晶含水层的 38 个品牌瓶装水的化学成分,以了解岩水相互作用过程。 [2]