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煤层隐伏露头区离层水害形成机制与防治技术OA

Formation mechanism and prevention technology of water hazard from bed separation in hidden outcrop area of coal seam

中文摘要英文摘要

为查明宋新庄煤矿隐伏露头煤层区工作面顶板水害的水源、通道及形成机制,通过分析含水层水位动态变化规律并结合工作面水文地质条件与突水特征,初步判定水害类型为离层水害.基于数值模拟与现场实测相结合的方法,系统研究了采动条件下隐伏露头区离层空间的形成位置、几何形态及垂向发育特征,同时定量确定了导水裂隙带的发育高度.研究结果表明:由于煤层顶板覆岩力学性质与物理特性的显著差异,工作面回采后在角度不整合接触位置形成离层空间,当导水裂隙带发育至上部含水层时,地下水通过裂隙网络向离层空间渗流补给形成离层水体,该水体在顶部岩层压力与自重联合作用下突破下部隔水岩层溃入工作面,最终形成离层水害.针对该形成机制,提出通过对隐伏露头区顶板含水层实施超前疏放、控制工作面匀速开采以抑制导水裂隙带过度发育、优化开采上限及合理降低采高等综合防治措施,可有效降低离层水体的积聚规模与溃突风险.研究表明,煤层隐伏露头区因岩层强度差异显著而易发生离层水害,所提出的防控措施可为类似地质条件工作面的水害防治提供理论依据和技术支撑.

In order to find out the water source,channel and formation mechanism of water damage in the coal seam working face in the hidden outcrop area of Songxinzhuang Coal Mine,we analyzed the changing law of water level in the aquifer,combined with the hydrogeological conditions of the working face and the characteristics of the water inrush,and preliminarily judged the type of the water damage in the roof to be the water inrush from bed separation.Numerical modeling was used to study the formation location,shape and height of the separation space in the hidden outcrop area of the coal seam under the mining conditions of the working face,and numerical modeling and on-site measurements were used to obtain the development height of water-conducting fractured zone after the mining of the working face.The research results show that due to the significant differences in mechanical properties and physical characteristics of the overlying strata of the coal seam,a bed separation space is formed at the angle unconformity contact position after the working face is mined.When the water-conducting fracture zone develops to the upper aquifer,groundwater seeps through the fracture network into the bed separation space for recharge,forming a bed separation water body.Under the combined action of the pressure of the overlying rock layer and its own gravity,this water body breaks through the lower aquiclude rock layer and rushes into the working face,ultimately resulting in bed separation water damage.Regarding this formation mechanism,it is pro-posed to implement comprehensive prevention and control measures such as conducting advanced drainage of the aquifer in the roof of the hidden outcrop area,controlling the uniform mining speed of the working face to inhibit the excessive development of the wa-ter-conducting fracture zone,optimizing the mining limit and reasonably reducing the mining height.These measures can effectively reduce the accumulation scale and collapse risk of the bed separation water body.Research shows that due to significant differences in rock layer strength in the hidden outcrop area of the coal seam,bed separation water disasters are prone to occur.The proposed prevention and control measures can provide theoretical basis and technical support for water disaster prevention in working faces with similar geological conditions.

赵毅;赵宝峰;钟银权;苏成志;张泽源

中国石化长城能源化工(宁夏)有限公司 宁夏 银川 750411中煤科工西安研究院(集团)有限公司,陕西 西安 710054煤矿灾害防控全国重点实验室,陕西 西安 710077中国石化长城能源化工(宁夏)有限公司 宁夏 银川 750411中煤科工西安研究院(集团)有限公司,陕西 西安 710054

矿业与冶金

隐伏露头离层水害数值模拟形成机制导水裂隙带

hidden outcropwater hazard from bed separationnumerical simulationformation mechanismwater-conducting frac-tured zone

《煤矿安全》 2026 (1)

179-186,8

国家自然科学基金资助项目(41807221)陕西省自然科学基础研究计划资助项目(2018JQ5150)

10.13347/j.cnki.mkaq.20250189

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