Demonstration of a technical system for water disaster prevention and control when mining under sandstone aquifers

Q3 Engineering

International Journal of Mining and Mineral Engineering Pub Date : 2021-08-02 DOI:10.1504/ijmme.2021.10040112

Jianghua Li, Hongjie Li, Yuguang Lian, Yaqi Luo

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引用次数: 0

Abstract

A heterogeneous sandstone aquifer (K8) lying above a no. 3 coal seam greatly threatens the safety of mining operations at working faces in the Zhao Coal Mine. This study demonstrated a disaster prevention approach involving the transient electromagnetic method and drainage drillings into the water-rich areas before mining, and evaluated the drainage effect. The research followed three steps: 1) three water-rich areas were identified in the sandstone aquifer K8; 2) in the water-rich areas, three drilling sites were designed, and ten holes were drilled; 3) water outflow from the drilling holes decreased obviously over time, and the water-rich areas almost disappeared following water drainage. The total volume of drained water was more than the predicted value; hence, the approach met the requirements for water drainage. This technical system of water disaster prevention and control was proposed for circumstances of mining under roof aquifers, which included geophysical prospecting, drilling exploration, water drainage, and effect evaluation.

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砂岩含水层下开采水害防治技术体系论证

赵煤矿3号煤层上方的非均质砂岩含水层（K8）严重威胁着工作面采矿作业的安全。本研究展示了一种包括瞬变电磁法和采矿前向富水地区排水钻孔的防灾方法，并评估了排水效果。研究分三个步骤：1）在K8砂岩含水层中确定了三个富水区；2）在富水地区，设计了三个钻井点，钻了十个孔；3）随着时间的推移，钻孔的出水量明显减少，富水区域在排水后几乎消失。排水总量大于预测值；因此，该方法满足了排水要求。该水害防治技术体系是针对顶板含水层开采情况提出的，包括物探、钻探、排水、效果评价等。

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来源期刊

International Journal of Mining and Mineral Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

1.90

自引率

0.00%

发文量