水科学进展2016,Vol.27Issue(2):214-223,10.DOI:10.14042/j.cnki.32.1309.2016.02.006
分布式“河道-沉陷区-地下水”水循环耦合模型--Ⅰ.模型原理与开发
Research on the distributed “river-subsidence area-groundwater”coupling simulation of coal mining subsidence area:Ⅰ:theory and development
摘要
Abstract
Understanding the ponding mechanism and water cycle processes in mining subsidence areas has important practical significance for local ecological environment governance. It can also provide the scientific basis for research on comprehensive utilization of water resources in subsidence areas. This paper puts forth the control equation for min-ing subsidence areas based on water balance. The relationship between ponding and other hydrological factors is de-scribed in detail, and the "river-subsidence area-groundwater" coupling simulation model with a strong physical mechanism is developed based on the distributed hydrological simulation. The model can be used as a quantitative a-nalysis tool for research in aspects of coal mining subsidence areas, such as the mechanism of ponding, transformation of water cycle, prediction of water situation changes, and the influence on the local water cycle due to the subsequent sinkage.关键词
采煤沉陷/沉陷区/地下水/耦合模拟/分布式水文模型Key words
coal mining subsidence/subsidence area/groundwater/coupling simulation/distributed hydrological model分类
建筑与水利引用本文复制引用
李慧,陆垂裕,孙青言,王浩,严聆嘉,张博..分布式“河道-沉陷区-地下水”水循环耦合模型--Ⅰ.模型原理与开发[J].水科学进展,2016,27(2):214-223,10.基金项目
国家自然科学基金资助项目(51509264);淮南矿业集团2012年科学技术项目( HKKY-2012-004) The study is financially supported by the National Natural Science Foundation of China ( No.51509264). ()
