Evaluation of water resources carrying capacity in ecologically fragile mining areas under the influence of underground reservoirs in coal mines

Abstract

The coal mine underground reservoir (CMUR) technology effectively solves the problem of “rich coal, poor water and weak ecology” in the mining areas of northwest China. This technology not only makes full use of underground space formed by coal mining, but also protects regional water resources. Water resources carrying capacity (WRCC) is an important indicator for characterizing the sustainable development of regional water resources and ecosystem. With the concept and technical core of " conductivity, storage and use" of CMUR as the entry point, this paper defines the concept of WRCC in the mining area. Based on the fuzzy comprehensive discrimination method, Focusing on stability and sustainability of the ecosystem in the mining area and fully considering geological factors, mining factors, water resource factors, this study constructs an evaluation system for the WRCC of the mining area under the influence of the coal mine underground reservoir based on fuzzy comprehensive discriminant method. Moreover, the evaluation criteria are formulated, and the membership functions and weights of 16 impact factors are derived. The transformation characteristics of WRCC with and without underground reservoir in Shendong mining area from 2009 to 2021 are evaluated CMUR, and the results show that CMUR improves the WRCC of the mining area, and supports the benign development of the regional ecosystem. The results of this study are of reference value and academic significance for the evaluation of WRCC in mining areas and the protection of water resources in ecologically fragile mining areas.