内陆浅层盐地下水区水岩相互作用(WRI)混合试验研究

Liu Changsuo, Xing Liting, W. Liyan, Zhang Fengjuan, L. Bo
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引用次数: 1

摘要

鲁北地区浅层含盐地下水分布广泛,人畜日常饮水困难。此外,浅层含盐地下水的形成机制是复杂的。研究在济阳县西岩村进行,选取埋深3 ~ 9 m的淤泥、浅盐地下水和大气降水作为试验材料,测定地下水化学成分。在可溶盐试验、雨-盐水混合试验和雨-盐水-粉土混合试验的基础上,测定了混合物的离子组分,分析了WRI的水文地球化学作用过程,加深了对内陆盐水形成演化的认识。结果表明:(1)WRI的发生阈值为20%,即混合物中盐水的体积。(2)雨水、盐水和淤泥混合12小时,方解石和白云石析出,岩盐和石膏处于溶解状态。当混合物中盐水体积大于20%时,石膏接近饱和,阳离子交换以Mg-Na为主,Ca-Na交换次之;含水层介质阴离子吸附量的大小顺序为SO4 - > HCO3 - >Cl -。研究证明,地下水循环是缓慢而持续的,在内陆浅层地下水演化过程中发生了一些水化学作用(如离子交换、吸附、矿物溶解或沉淀、强蒸发浓缩等)。这些都会形成TDS大于2g·L -1的ClSO4-MgNa型盐或微盐水。
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Mixing Experimental Study on Water-rock Interaction (WRI) in the Inland Shallow Salt Groundwater Area
The shallow salt groundwater is widely distributed in North Shandong, which makes it difficult for people and livestock to drink daily. In addtion, the genetic mechanism of shallow salt groundwater is complicated. The study was carried out in Xiyan Village of Jiyang County, it choosed the silt buried in 3-9 m depth, shallow salt groundwater and atmospheric precipitation as test materials to measure chemical composition of groundwater. Base on soluble salt test, rain-saltwater mixing test and rain-saltwater-silt mixing test, ions component of mixture were measured, the hydrogeochemical action process of WRI was analyzed and formation-evolution of inland saltwater was deepened knowledge. It is shown that (1) The occurrence threshold of WRI was 20%, which was the volume of saltwater in mixture. (2) When the rainwater, saltwater and silt were mixed together for 12 hours, calcite and dolomite precipitated, halite and gypsum were in dissolved state. When the volume of saltwater in mixture was larger than 20%, gypsum was closed to saturation, the main cation exchange was Mg-Na, the exchange of Ca-Na was in the second place; The order for anion adsorption amount of aquifer medium was SO4 2- > HCO3 - >Cl - . The study proves that groundwater circulation is slow and continual, some hydrochemical actions (i.e. ion exchange, adsorption, mineral dissolution or precipitation, and strong evaporation-concentration) are happened during the evolution process of inland shallow groundwater. All these will lead to ClSO4-MgNa type salt or slight salt water with TDS being larger than 2g·L -1 .
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