赵春虎, 虎维岳, 靳德武. 西部干旱矿区采煤引起潜水损失量的定量评价方法[J]. 煤炭学报, 2017, (1): 169-174. DOI: 10.13225/j.cnki.jccs.2016.5001
引用本文: 赵春虎, 虎维岳, 靳德武. 西部干旱矿区采煤引起潜水损失量的定量评价方法[J]. 煤炭学报, 2017, (1): 169-174. DOI: 10.13225/j.cnki.jccs.2016.5001
ZHAO Chun-hu, HU Wei-yue, JIN De-wu. Method of quantitative evaluation on amount of groundwater loss from uncon- fined aquifer caused by mining disturbance in the arid area of Western China[J]. Journal of China Coal Society, 2017, (1): 169-174. DOI: 10.13225/j.cnki.jccs.2016.5001
Citation: ZHAO Chun-hu, HU Wei-yue, JIN De-wu. Method of quantitative evaluation on amount of groundwater loss from uncon- fined aquifer caused by mining disturbance in the arid area of Western China[J]. Journal of China Coal Society, 2017, (1): 169-174. DOI: 10.13225/j.cnki.jccs.2016.5001

西部干旱矿区采煤引起潜水损失量的定量评价方法

Method of quantitative evaluation on amount of groundwater loss from uncon- fined aquifer caused by mining disturbance in the arid area of Western China

  • 摘要: 针对西部干旱矿区煤炭资源开发对地下水扰动的相关研究定量化程度不高问题,通过地下水动力学分析方法,得出采掘扰动形成的覆岩垮落带、裂隙带、弯曲带及地面沉陷区的空间尺度是控制地下水损失的主要因素,其扰动面积越大、冒裂带高度越高、弯曲带保护层渗透能力越强则地下水渗漏量越大;提出了覆岩导水裂缝边界化,弯曲带渗透能力分区,地面沉陷区重新剖分的采掘扰动影响下地下水系统数值评价模型的构建方法;并通过构建案例矿井的评价模型,计算得出神东矿区补连塔煤矿由于煤矿开采引起松散层潜水损失量为1.90×10~4m~3/d。

     

    Abstract: The quantitative degree of coal resources exploitation on water environment disturbance is insufficient in the coal mining area of western China. In this paper,it concludes that the spatial scale is the main factor to control the loss of groundwater by the method of groundwater dynamics analysis,which includes the caving zone,the fracture zone,the bending zone and the ground subsidence area. The method of numerical evaluation model of groundwater system is pro- posed,which is based on the boundary of the hydraulic conductivity of overlying rock,the partition of bending zone, and the re-subdivision of surface subsidence area. According to the quantitative evaluation of groundwater dynamic sys- tem disturbance in the Bulianta coal mine,the simulation results show that the loss of groundwater resources is about 1. 90×104 m3 / d due to the mining disturbance.

     

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