富水特厚砂砾岩下采煤覆岩破断特征及采高确定
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摘要
为确定干沟煤矿2601工作面受富水特厚砂砾岩影响下的安全采高,综合运用现场实测、理论分析、数值模拟及相似模拟实验的方法,对工作面导水裂隙带高度进行了研究。研究结果表明,干沟煤矿工作面覆岩裂采比实测值为7.5,以裂采比7.5计算了2601工作面在不同采高条件下覆岩的导水裂隙高度,确定了工作面安全采高上限为5.0 m;在设定采高5.0 m条件下,采用数值模拟及相似模拟实验进一步验证得出覆岩破坏高度分别为40.0、37.0 m,与利用裂采比7.5预计的结果相近,说明2601工作面采煤高度确定为5.0 m是可行的。
In order to determine the safe mining height of 2601 working face in Gangou Coal Mine under the influence of water rich extra thick sand conglomerate,the height of hydraulic fracture zone of the working face was studied by using the method of field measurement,theoretical analysis,numerical simulation and similar simulation experiment.The results show that the measured split ratio of overlying strata of the working face in Gangou Coal Mine is 7.5,the hydraulic fracture height of the overlying strata of 2601 working face under different mining heights is calculated with the split ratio 7.5,and the upper limit of the safe mining height of the working face is set as 5.0 m;under the condition of set mining height of 5.0 m,numerical simulation and similar simulation experiments are used to further verify that the overlying strata failure height is 40. 0 m and 37. 0 m respectively,the result is similar to that predicted by using the split ratio of 7.5,indicating that it is feasible to determine the mining height of 2601 working face as 5.0 m.
In order to determine the safe mining height of 2601 working face in Gangou Coal Mine under the influence of water rich extra thick sand conglomerate,the height of hydraulic fracture zone of the working face was studied by using the method of field measurement,theoretical analysis,numerical simulation and similar simulation experiment.The results show that the measured split ratio of overlying strata of the working face in Gangou Coal Mine is 7.5,the hydraulic fracture height of the overlying strata of 2601 working face under different mining heights is calculated with the split ratio 7.5,and the upper limit of the safe mining height of the working face is set as 5.0 m;under the condition of set mining height of 5.0 m,numerical simulation and similar simulation experiments are used to further verify that the overlying strata failure height is 40. 0 m and 37. 0 m respectively,the result is similar to that predicted by using the split ratio of 7.5,indicating that it is feasible to determine the mining height of 2601 working face as 5.0 m.
引文
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[14]刘伟韬,陈志兴,张茂鹏.覆岩裂隙带发育高度数值模拟和现场实测[J].矿业安全与环保,2016,43(1):57-60.
[2]吕广罗,田刚军,张勇,等.巨厚砂砾岩含水层下特厚煤层保水开采分区及实践[J].煤炭学报,2017,42(1):189-196.
[3]赵启峰,张农,韩昌良,等.浅埋薄基岩含水层下煤层开采突水溃砂相似模拟实验研究[J].采矿与安全工程学报,2017,34(3):444-451.
[4]刘玥.三台界矿区导水裂隙带发育高度预计与数值模拟[J].煤矿安全,2013,44(12):179-182.
[5]刘生优,卫斐.软弱覆岩强含水层下综放开采覆岩破坏特征实测研究[J].中国煤炭,2016,42(4):61-65.
[6]许延春,刘中华,杜明泽,等.近含水体工作面综放开采安全煤岩柱留设及安全回采厚度确定[J].煤矿开采,2017,22(1):80-83.
[7]王长友,郑忠友,华召文,等.萨拉乌苏组含水层对杭来湾井田煤层开采影响性分析[J].煤炭工程,2014,46(12):13-16.
[8]许延春,李江华,董检平,等.1706-1工作面砂砾含水层下安全煤(岩)柱的留设[J]煤矿安全,2015,46(1):180-182.
[9]李常文,汪锐,何孜孜,等.高头窑煤矿河下开采导水裂隙带高度的试验研究[J].煤矿安全,2011,42(3):12-15.
[10]来兴平,崔峰,曹建涛,等.三软煤层综放工作面覆岩垮落及裂隙导水特征分析[J]煤炭学报,2017,42(1):148-154.
[11]魏久传,李忠建,郭建斌,等.浅埋煤层采动覆岩运动相似材料模拟研究[J].矿业安全与环保,2010,37(4):11-13.
[12]张杰.浅埋煤层中的关键层运动与导水裂隙发展[J].湖南科技大学学报(自然科学版),2010,25(4):25-28.
[13]方刚.焦坪矿区某井田综采覆岩导水裂隙带高度研究[J].煤矿安全,2015,46(S1):22-25.
[14]刘伟韬,陈志兴,张茂鹏.覆岩裂隙带发育高度数值模拟和现场实测[J].矿业安全与环保,2016,43(1):57-60.
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