[1] 郭文兵,邵强,尹士献,等.水库下采煤的安全性分析[J].采矿与安全工程学报,2006,23(3):324-328. GUO Wenbing, SHAO Qiang, YIN Shixian, et al. Analysis of the safety of mning uder a rservoir[J].Journal of Mining and Safety Engineering, 2006,23(3): 324-328. [2] 国家安全生产监督管理总局、国家煤矿安全监察局、国家能源局、国家铁路局. 建筑物、水体、铁路及主要井巷煤柱留设与压煤开采规范[L].2017-05-17. [3] 高保彬,刘云鹏,潘家宇,等.水体下采煤中导水断裂带高度的探测与分析[J].岩石力学与工程学报,2014,33(增1):3384-3390. GAO Baobin, LIU Yunpeng, PAN Jiayu, et al. Tetection and analysis of the fractured zone height on mining under water bodies sprocket detection and analysis of the fractured zone height[J]. Chinese Journal of Rock Mechanics and Engineering, 2014,33 (S1): 3 384-3 390. [4] 郭文兵,杨达明,谭毅,等,薄基岩厚松散层下充填保水开采安全性分析[J].煤炭学报,2017,42(1):106-111. GUO Wenbing, YANG Daming, TAN Yi, et al. Study on safety of overlying strata by backfilling in water-preserved mining under thick alluvium and thin bedrock [J]. Journal of China Coal Society, 2017, 42(1): 106-111. [5] GUO Wenbing, ZOU Youfeng, HOU Quanlin. Fractured zone height of longwall mining and its effects on the overburden aquifers[J]. International Journal of Mining Science and Technology,2012, 22(5): 603-606. [6] 刘树才,刘鑫明,姜志海,等.煤层底板导水裂隙演化规律的电法探测研究[J].岩石力学与工程学报,2009,28(2):348-356. LIU Shucai,LIU Xinming,JIANG Zhihai,et al. Research on electrical prediction for evaluating water conducting fracture zones in coal seam floor [J]. Chinese Journal of Rock Mechanics and Engineering,2009,28(2): 348-356. [7] 许家林,王晓振,刘文涛,等.覆岩主关键层位置对导水裂隙带高度的影响[J].岩石力学与工程学报,2009,28(2):380-385. XU Jialin, WANG Xiaozhen, LIU Wentao, et al. Effects of primary key stratum location on height of water flowing fracture zone [J]. Chinese Journal of Rock Mechanics and Engineering, 2009, 28(2): 380-385. [8] 许家林,朱卫兵,王晓振.基于关键层位置的导水裂隙带高度预计方法[J].煤炭学报,2012,37(5):762-769. XU Jialin, ZHU Weibing, WANG Xiaozhen. New method to predict the height of fractured water-conducting zone by location of key strata[J]. Journal of China Coal Society, 2012, 37(5): 762-769. [9] 施龙青,辛恒奇,翟培合,等.大采深条件下导水裂隙带高度计算研究[J].中国矿业大学学报,2012,41(1):37-41. SHI Longqing, XIN Hengqi, ZHAI Peihe, et al. Calculating the height of water flowing fracture zone in deep mining[J]. Journal of China University of Mining & Technology, 2012, 41(1): 37-41. [10] 张宏伟,朱志洁,霍丙杰,等.基于改进的FOA-SVM 导水裂隙带高度预测研究[J].中国安全科学学报,2013,23(10):9-14. ZHANG Hongwei, ZHU Zhijie, HUO Bingjie, et al. Water flowing fractured zone height prediction based on improved FOA-SVM[J]. China Safety Science Journal,2013, 23(10): 9-14. [11] 谢晓锋,李夕兵,尚雪义,等. PCA-BP神经网络模型预测导水裂隙带高度[J]. 中国安全科学学报,2017,27(3): 100-105. XIE Xiaofeng, LI Xibing, SHANG Xueyi, et al. Prediction of height of water flowing fractured zone based on PCA-BP neural networks model[J]. China Safety Science Journal,2017, 27(3): 100-105. [12] 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. LAI Xingping, CUI Feng, CAO Jiantao, et al. Analysis on characteristics of overlying rock caving and fissure conductivewater in top-coal caving working face at three soft coal seam [J]. Journal of China Coal Society, 2017, 42(1): 148-154. [13] 钱鸣高,石平五,许家林,矿山压力与岩层控制[M].徐州:中国矿业大学出版社,2010:76-77. [14] 许春雷.沙坪矿黄河下开采导水裂隙带高度研究[D].太原:太原理工大学,2013. XU Chunlei.Study on the height of water flowing fractured zone of the shaping mine under the Yellow River [D]. Taiyuan: Taiyuan University of Technology, 2013. [15] 马亚杰,武强,章之燕,等.煤层开采顶板导水裂隙带高度预测研究[J].煤炭科学技术,2008,36(5):59-62. MA Yajie, WU Qiang, ZHANG Zhiyan, et al. Research on prediction of water flowing fractured height in roof of coal mining seam [J]. Coal Science and Technology, 2008, 36(5): 59-62. |