首页|期刊导航|地质通报|京津以南平原区浅层地下水水化学类型、特征、形成机制及其开发利用潜力

京津以南平原区浅层地下水水化学类型、特征、形成机制及其开发利用潜力OA

Hydrochemical types,characteristics,formation mechanism and exploitation potential of shallow groundwater in the plain south of Beijing-Tianjin

中文摘要英文摘要

[研究目的]深入研究京津以南平原区浅层地下水水化学类型、特征、形成机制及其开发利用潜力,为区域水资源管理与保护提供理论依据.[研究方法]对河北平原区石家庄、衡水、沧州等地开展地下水调查、水样采集与分析,综合运用 Gibbs 模型模拟、水化学分析、主要离子比值分析、PHREEQC 软件计算饱和指数分析等方法分析了地下水化学特征、水岩作用机理及开发利用潜力.[研究结果]结果表明,沿地下水流动方向,从冲积洪积区,经扇前洼地区,至中部平原河间(道)带区,TDS 质量浓度、Na+、Ca2+、Mg2+、Cl-、SO42-含量逐渐上升,而 pH 值呈现出先增大后减小的趋势,K+、HCO3-含量呈现出先减少后增大的趋势.地下水化学类型由 HCO3-Ca 型→Cl·SO4-Ca·Mg 型→Cl·SO4-Na 型演化转变.冲积洪积区的地下水化学组分主要受碳酸盐的溶解作用控制;扇前洼地区受水岩作用和蒸发结晶作用的共同影响,且以硅酸盐风化作用为主;中部平原河间(道)带区,以岩盐溶解和蒸发结晶作用为主;研究区浅层地下水开发利用现状为全淡水区浅层地下水呈现超采态势,咸水区天然水资源量较可观,但是可利用的淡水资源较少.[结 论]京津以南平原区浅层地下水在径流过程中受多种因素影响,在上游冲积洪积区受人类活动影响较大,需关注生活污水的影响.研究区全淡水区浅层地下水需严格把控开采规模.有咸水区可加强对微咸水(2~3 g/L)的综合利用.

[Objective]This paper aims to conduct an in-depth study on the hydrochemical types,characteristics,formation mechanisms,and development and utilization potential of shallow groundwater in the plain area south of Beijing and Tianjin,so as to provide a theoretical basis for the management and protection of regional water resources.[Methods]Groundwater surveys,water sample collection and analysis were carried out in Shijiazhuang,Hengshui,Cangzhou and other areas of the Hebei Plain.Methods including Gibbs model simulation,hydrochemical analysis,major ion ratio analysis,and saturation index calculation using the PHREEQC software were comprehensively applied to analyze the hydrochemical characteristics,water-rock interaction mechanism and development and utilization potential of groundwater.[Results]The results show that along the groundwater flow direction,from the alluvial-proluvial zone,through the pre-fan depression zone,to the inter-river channel zone of the central plain,the total dissolved solids(TDS)and concentrations of Na+,Ca2+,Mg2+,Cl-and SO42-increase gradually.The pH first increases and then decreases,while the contents of K+and HCO3-first decrease and then increase.The groundwater hydrochemical type evolves from HCO3-Ca type to Cl·SO4-Ca·Mg type and then to Cl·SO4-Na type.Hydrochemical components in the alluvial-proluvial zone are mainly controlled by carbonate dissolution;the pre-fan depression zone is jointly affected by water-rock interaction and evaporation-crystallization,dominated by silicate weathering;and the central inter-river zone is controlled mainly by halite dissolution and evaporation-crystallization.In terms of exploitation status,shallow groundwater in the freshwater zone is over-exploited,whereas the saline water zone has abundant natural water resources but limited available freshwater.[Conclusions]Shallow groundwater in the plain south of Beijing and Tianjin is affected by multiple factors during runoff.The upstream alluvial-proluvial zone is strongly influenced by human activities,and the impact of domestic sewage requires attention.Exploitation of shallow groundwater in the freshwater zone should be strictly controlled.Comprehensive utilization of brackish water(2~3 g/L)can be strengthened in the saline water zone.

朱琴;杨志光;田晓华;赵凯

河北省水文工程地质勘查院(河北省遥感中心),河北 石家庄 050021||河北省地下水资源与生态环境安全技术创新中心,河北 石家庄 050021河北省水文工程地质勘查院(河北省遥感中心),河北 石家庄 050021||河北省地下水资源与生态环境安全技术创新中心,河北 石家庄 050021河北省水文工程地质勘查院(河北省遥感中心),河北 石家庄 050021||河北省地下水资源与生态环境安全技术创新中心,河北 石家庄 050021中国地质环境监测院,北京 100081

天文与地球科学

浅层地下水水化学特征离子质量浓度水岩作用开发利用潜力京津以南平原区

shallow groundwaterhydrochemical characteristicsion mass concentrationwater-rock interactionexploitation potentialplain south of Beijing-Tianjin

《地质通报》 2026 (4)

634-646,13

国家重点研发计划课题《雄安新区地下水环境风险预测预警与防控》(编号:2016YFC0401404)、河北省自然资源厅项目《河北省全民所有自然资源资产所有权委托代理机制试点(地下水资源)》(编号:13000022P00EEC4101484)、自然资源部部省合作项目《典型区水平衡健康诊断与量水发展研究》(编号:2024ZRBSHZ026)和《地下水位降落漏斗成因及关键控制因子研究》(编号:13000022P00329410101J) Supported by National Key Research and Development Program of China(No.2016YFC0401404),Ministry of Natural Resources Provincial Cooperation Project(No.2024ZRBSHZ026),and Projects of Hebei Provincial Department of Natural Resources(Nos.13000022P00EEC4101484,13000022P00329410101J)

10.12097/gbc.2024.10.045

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