摘要
地下水年龄和滞留时间包含了地下水循环和演化的重要信息,被广泛用于盆地地下水循环模式的研究。使用多级次地下水流系统演示仪,实验模拟了三级水流系统模式中地下水年龄及滞留时间分布。研究发现,盆地底部、区域流线的下游、盆地滞留区最晚响应;浅部的局部水流系统稳定后的浓度值相对较低;中间水流系统相对深部的区域水流系统也较低,滞留区盐分积累,浓度值相对较大。盆地内部所有监测点的地下水年龄分布曲线都为单峰,区域水流系统的循环时间大于中间水流系统以及局部水流系统。在排泄区监测的滞留时间分布显示不同级次补给会产生早、中、晚峰,并且峰值与地下水流系统的级次性完全对应,可以通过排泄区的峰值判断地下水是从局部、中间或区域水流系统补给而来,以此判断污染物的来源。本研究成果对于地下水的循环演化和地下水流系统理论的完善具有一定的意义。
Groundwater age and groundwater residence time contain important information about groundwater circulation and evolutionary processes, and have been widely used in the study of groundwater circulation patterns in basins.In this paper, we simulated a three-stage flow system model through a multi-stage groundwater flow system demonstrator, and simulated the groundwater age distribution and groundwater residence time distribution based, and found that the bottom of the basin, the downstream of the regional flow, and the basin retention area responded the latest.The local flow system in the shallow part has relatively low concentration values after stabilization, the intermediate flow system is also relatively low compared to the regional flow system in the deep part, and the stagnant zone has relatively large concentration values due to salt accumulation.The groundwater age distribution curves are single-peaked, and the circulation time of the regional flow system is greater than that of the intermediate flow system than that of the local flow system.The residence time distribution monitored in the discharge zones shows that different levels of recharge will produce early, middle and late peaks, and the peaks correspond exactly to the level of the groundwater flow system.It can be judged from the peaks in the discharge zones that the groundwater is recharged from the local, intermediate or regional flow system, and thus the source of contaminants can be determined.The present research results have some significance for the evolution of groundwater circulation and the improvement of groundwater flow system theory.
作者
牛宏
魏小雅
林晶晶
王俊智
尼胜楠
李姝姿
无
Niu Hong;Wei Xiaoya;Lin Jingjing;Wang Junzhi;Ni Shengnan;Li Shuzi(College of Resources and Environmental Science,South-Central University for Nationalities,Wuhan 430074,China;Ecology and Environment Monitoring and Scientific Research Center,Yangtze Basin Ecology and Environment Administration,Ministry of Ecology and Environment,Wuhan 430014,China;Yellow River Engineering Consulting Co.,Ltd.(YREC),Zhengzhou 450003,China;College of Ship and Ocean,Naval University of Engineering,Wuhan 430033,China)
出处
《地质科技通报》
CAS
CSCD
北大核心
2022年第1期177-182,共6页
Bulletin of Geological Science and Technology
基金
国家自然科学基金项目(41807186,41902245,42004071)
中南民族大学中央高校项目(CZQ21015)。
关键词
地下水流系统
地下水年龄分布
地下水滞留时间分布
实验模拟
groundwater flow system
groundwater age distribution
groundwater residence time distribution
experimental simulation
