论文摘要
The theory of water-storage structure guides the direction groundwater exploration in bedrock mountain areas, and it’s important to transformation and application of achievements in hydrogeology survey. Water storage structure types have been studied 40 years, it become an important topic as the scope extension and precision improvement of the large scale hydrogeology survey. Based on the hydrogeology survey achievements in karst of the Southeast slope area of Yunnan Plateau and the central south region of Shandong, the paper establishes concept mode of water storage structureby statistical analysis and inductive deduction. Based on the information of water quantity, hydrochemistry and water level, this paper systematically sorts out similarities and differences on north and south water storage structure types and divisions represented. Moreover, it determines the correlation between the scale of water storage structures in the south and the north and the development and utilization, and clarifies the typical units of water storage structures, their structural characteristics and water flow characteristics. This paper studies the action mode of different geological structures, different lithostratigraphic assemblages, neotectonic movement, climate and vegetation differentiation and geomorphic units on the type of water storage structure from the aspects of typical water storage structure unit, water storage structure scale and groundwater flow system. By studying the water storage structure function, record index and maintenance mechanism, this can provides scientific basis for determination of well location with different water demands in water shortage area, and formulate the development and protection models of different types of water storage structures.
论文目录
文章来源
类型: 国际会议
作者: WANG Xinfeng,LIU Yuanqing,SONG Mian,GONG Lei,LI Wei,LV Lin,DENG Qijun,YU Kaining
来源: 第九届世界华人地质科学研讨会 2019-06-01
年度: 2019
分类: 基础科学
专业: 地质学
单位: Center for Hydrogeology and Environmental Geology,CGSHebei Research Center for Ecological and Environmental Geology
分类号: P641.134
DOI: 10.26914/c.cnkihy.2019.028490
页码: 379-380
总页数: 2
文件大小: 95k
下载量: 1