盆地地下水流模式及其转化与控制因素  被引量：17

作　　者：梁杏[1] 牛宏[2] 张人权[2] 刘彦[2] 靳孟贵[1] 

机构地区：[1]中国地质大学生物地质与环境地质国家重点实验室,湖北武汉430074 [2]中国地质大学环境学院,湖北武汉430074

出　　处：《地球科学（中国地质大学学报）》2012年第2期269-275,共7页Earth Science-Journal of China University of Geosciences

基　　金：国家重点基础研究发展计划"973计划"(No.2010CB428802);中国地质调查局计划项目专题(No.12120733908)

摘　　要：Tóth(1963)在复杂盆地给定上边界水头条件下,推演出多级次地下水流系统.运用此方法探讨水流模式,改变盆地介质或盆地深度等条件,盆地水均衡会同步发生变化;同时,给定上边界水头也固化了盆地的势源与势汇的位置与数目,这与实际条件不相符合,也限制了地下水流模式的转化研究.在总结实验条件下多级水流系统特征的基础上,提出了通量上边界的地下水流系统模拟方法(简称CUG-GWFS方法),并进行了水流系统数值模拟.结果表明:(1)在多个可能势汇的盆地中,可以发育5种地下水流模式,即:简单区域水流系统(RS)、局部+区域两级嵌套水流系统(LS+RS)、局部+中间+区域三级嵌套水流系统(LS+MS+RS)、局部+中间两级嵌套水流系统(LS+MS)和简单局部水流系统(LS).(2)盆地地下水流模式受盆地入渗强度、介质条件、盆地长度与深度比值,以及盆地可能势汇的多少与位置的影响.(3)保持其他条件不变,单独加大盆地入渗强度比Ric,或加大盆地长深比Rld,盆地水流模式按照上述5种模式呈现有序转化.Tóth proposed hierarchical groundwater flow-systems in the complex basin based on given head upper-boundaries in the 1960’s.However,when the flow patterns with the given head upper-boundary are dealt with（so called Tóth method）,changes of hydraulic conductivities or basin geometry result in changes of water budget in a basin synchronously.At the same time,the number of potential sources and sinks and their positions are fixed by the given head upper-boundaries which are not consistent with the actual condition and may result in wrong groundwater flow patterns and their transformation.Based on summarizing the hierarchical characteristics of groundwater flow systems on sand-box experiments,we propose a numerical simulation of groundwater flow patterns using flux as upper-boundaries（so called CUG-GWFS method）.The simulated results show that five sequential flow patterns may develop in the basin with several possible potential sources and sinks：（a） simple regional only,（b） nested local-regional,（c） nested local-intermediate-regional,（d） nested local-intermediate,and（e） just local flow systems.The basinal groundwater flow patterns are dominated by the infiltration intensity,hydraulic conductivities,the ratio of length to depth and the number of potential sources and sinks and their positions.The basinal flow patterns will transform orderly as the five patterns above with the increasing of the ratio of infiltration intensity to hydraulic conductivity Ric or the ratio of length to depth of a basin Rld while the rest conditions remain the same.

关 键 词：地下水流模式 转化 入渗强度比 长深比 水文地质 

分 类 号：X141[环境科学与工程—环境科学]