[1]王生全,武 超,彭 涛,等.青龙寺煤矿5-2煤层顶板含水层突水危险性评价[J].西安科技大学学报,2018,(06):959-965.[doi:10.13800/j.cnki.xakjdxxb.2018.0612]
 WANG Sheng-quan,WU Chao,PENG Tao,et al.Evaluation of water inrush hazard in roof aquifer of 5-2 coal seam in Qinglongsi coal mine[J].Journal of Xi'an University of Science and Technology,2018,(06):959-965.[doi:10.13800/j.cnki.xakjdxxb.2018.0612]
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青龙寺煤矿5-2煤层顶板含水层突水危险性评价(/HTML)
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西安科技大学学报[ISSN:1672-9315/CN:61-1434/N]

卷:
期数:
2018年06期
页码:
959-965
栏目:
出版日期:
2018-11-30

文章信息/Info

Title:
Evaluation of water inrush hazard in roof aquifer of 5-2 coal seam in Qinglongsi coal mine
文章编号:
1672-9315(2018)06-0959-07
作者:
王生全12武 超1彭 涛1武忠山1刘凯祥1
(1.西安科技大学 地质与环境学院,陕西 西安 710054; 2.国土资源部煤炭资源勘查与综合利用重点实验室,陕西 西安 710021)
Author(s):
WANG Sheng-quan12WU Chao1PENG Tao1WU Zhong-shan1LIU Kai-xiang1
(1.College of Geology and Environment,Xi'an University of Science and Technology,Xi'an 710054,China; 2.Key Laboratory of Coal Resources Exploration and Comprehensive Utilization,Ministry of Land and Resources,Xi'an 710021,China)
关键词:
突水危险性评价 5-2煤层 地理信息系统 层次分析法 青龙寺煤矿
Keywords:
water inrush risk assessment 5-2coal seam geographic information system analytic hierarchy process Qinglongsi coal mine
分类号:
TD 741
DOI:
10.13800/j.cnki.xakjdxxb.2018.0612
文献标志码:
A
摘要:
为评价青龙寺煤矿5-2煤层顶板含水层突水危险性,保证矿井的安全生产。文中利用地理信息系统(GIS)对影响煤层顶板直接充水含水层富水性的5个主控因素进行了分析,通过层次分析法(AHP),计算出各主控因素的权重值,构建了含水层富水性分区图; 通过对导水裂隙带发育高度的计算,然后与5-2煤层顶板隔水岩段加以比较,建立了顶板冒裂安全性分区图; 通过叠加含水层富水性分区图与顶板冒裂安全性分区图,建立了煤层顶板直接充水含水层突水危险性综合分区图。研究结果表明:在矿区西北、东北部和西南局部富水性较弱,东南部富水性较强; 而顶板冒裂安全性在矿区中部和西南部处于冒裂非安全严重区,其他区域为冒裂非安全一般区。青龙寺煤矿5-2煤层顶板含水层突水危险性为:在矿区西北、东北和中部地区主要为相对安全区和较安全区,5-2煤层顶板含水层突水危险性较弱; 在矿区西南和东南部地区主要为较危险区和危险区,5-2煤层顶板含水层突水危险性较强,从而对即将进行生产的5-20102和5-20104工作面煤层顶板水害防治方案的制定提供了科学依据。
Abstract:
In order to evaluate the risk of water inrush in roof aquifer of 5-2 coal seam in Qinglongsi Coalmine,and to ensure the safety of mine production.Five main control factors affecting water abundance of aquifers directly filled with water in coal seam roof are analyzed using Geographic Information System(GIS).The weights of each main control factor are calculated by Analytic Hierarchy Process(AHP),and the water-rich zone map of aquifer is constructed.By calculating the development height of water conduction fissure zone and comparing it with the roof water isolation rock section of 5-2 coal seam,the roof burst safety zoning map is established,and the water-rich zone map of aquifer and the roof burst safety zone map are superimposed,and the roof fracture safety zoning map is established by superposing the water-rich zone map of aquifer with the roof burst safety zoning map.The comprehensive zoning map of water inrush risk of directly water-filled aquifer in coal seam roof is established.The results show that the water abundance in the northwest,northeast and southwest of the mining area is weak and that in the southeast of the mining area is strong,while regarding the roof burst safety,the middle and southwest of the mining area is grave unsafe area.The rest of the area is a unsafe general area of crack.The risk of water inrush from roof aquifer of 5-2 coal seam in Qinglongsi Coalmine is as follows:the northwest,northeast and central areas of the mining area are mainly relative safe zone and safer zonewith weaker danger.In the southwest and southeast,the danger is strong.Our study provides scientific basis for the formulation of the prevention and control scheme of the roof water disaster in the 5-20102and 5-20104working faces.

参考文献/References:


[1] 陈守建,王 永,伍跃中,等.西北地区煤炭资源及开发潜力[J].西北地质,2006,39(4):40-56. CHEN Shou-jian,WANG Yong,WU Yue-zhong,et al.Coal resources and development potential in Northwest China[J].Northwest Geology,2006,39(4):40-56.
[2] 武 强.我国矿井水防控与资源化利用的研究进展问题和展望[J].煤炭学报,2014,39(5):795-805. WU Qiang.Progress,problems and prospects of prevention and control technology of mine water and reutilization in China[J].Journal of China Coal Society,2014,39(5):795-805.
[3] 李 坤,曾一凡,尚彦军,等.基于GIS的“三图–双预测法”的应用[J].煤田地质与勘探,2015,43(2):58-62. LI Kun,ZENG Yi-fan,SHANG Yan-jun,et al.The application of“three maps-two predictions”method based on GIS[J].Coal Geology & Exploration,2015,43(2):58-62.
[4] 王生全,吴 佩,樊 敏,等.象山矿井主采3#煤层涌水规律及充水因素分析[J].西安科技大学学报,2016,36(6):831-836. WANG Sheng-quan,WU Pei,FAN Min,et al.Analysis of the gushing water law and water filling factors for No.3 coal seam of Xiangshan mine[J].Journal of Xi'an University of Science and Technology,2016,36(6):831-836.
[5] 王生全,牛建立,刘 洋,等.锦界煤矿矿井涌水规律及其控制因素分析[J].煤矿安全,2014,45(2):145-150. WANG Sheng-quan,NIU Jian-li,LIU Yang,et al.Gushing water law and its control factors analysis of Jinjie Coalmine[J].Coal Mine Safety,2014,45(2):145-150.
[6] 于雯琪,钱家忠,马 雷,等.基于GIS和AHP的谢桥煤矿13-1煤顶板突水危险性评价[J].煤田地质与勘探,2016,44(1):69-73. YU Wen-qi,QIAN Jia-zhong,MA Lei,et al.The water inrush risk assessment of roof of seam 13-1 in Xieqiao mine based on GIS and AHP[J].Coal Geology & Exploration,2016,44(1):69-73.
[7] 任晓波,吴瑞芳.基于煤层顶板充水含水层水压的“修正三图-双预测法”研究[J].煤炭工程,2016,48(11):131-133. REN Xiao-bo,WU Rui-fang.A modified three graphics-two predictions method based on hydraulic pressure of aquifers above coal seam roof[J].Coal Engineering,2016,48(11):131-133.
[8] 刘天泉.矿山岩体采动影响与控制工程学及其应用[J].煤炭学报,1995,20(1):1-5. LIU Tian-quan.Influence of mining activities on mine rock mass and control engineering[J].Journal of China Coal Society,1995,20(1):1-5.
[9] 高延法.岩移“四带”模型与动态位移反分析[J].煤炭学报,1996,21(1):51-56. GAO Yan-fa.“Four-zone” model of rockmass movement and back analysis of dynamic displacement[J].Journal of China Coal Society,1996,21(1)51-56.
[10]钱鸣高,缪协兴,许家林.岩层控制中的关键层理论研究[J].煤炭学报,1996,21(3):225-230. QIAN Ming-gao,MIAO Xie-xing,XU Jia-lin.Theoretical study of key stratum in ground control[J].Journal of China Coal Society,1996,21(3):225-230.
[11]武 强.煤矿防治水手册[M].北京:煤炭工业出版社,2013. WU Qiang.Coal mine water prevention and control manual[M].Beijing:Coal Industry Press,2013.
[12]武 强.煤矿防治水规定释义[M].徐州:中国矿业大学出版社,2009. WU Qiang.Interpretation of coal mine water controlregulations[M].Xuzhou:China University of Mining and Technology Press,2009.
[13]武 强,黄晓玲,董东林,等.评价煤层顶板涌(突)水条件的“三图–双预测法”[J].煤炭学报,2000,25(1):60-65. WU Qiang,HUANG Xiao-ling,DONG Dong-lin,et al.“Three maps-two predictions”method to evaluate water bursting coditions on roof coal[J].Journal of China Coal Society,2000,25(1):62-67.
[14]武 强,樊振丽,刘守强,等.基于GIS的信息融合型含水层富水性评价方法-富水性指数法[J].煤炭学报,2011,36(7):1124-1128. WU Qiang,FAN Zhen-li,LIU Shou-qiang,et al.Water-richness evaluation method of water-filled aquifer based on the principle of information fusion with GIS:water-richness index method[J].Journal of China Coal Society,2011,36(7):1124-1128.
[15]武 强,杨 柳,朱 斌,等.“脆弱性指数法”在赵各庄矿底板突水评价中的应用[J].中国煤炭地质,2009,21(6):40-44. WU Qiang,YANG Liu,ZHU Bin,et al.Application of vulnerability index method in coal floor water bursting evaluation in Zhaogezhuang Coalmine[J].Coal Geology of China,2009,21(6):40-44.
[16]武 强,刘守强,贾国凯.脆弱性指数法在煤层底板突水评价中的应用[J].中国煤炭,2010,36(6):15-22. WU Qiang,LIU Shou-qiang,JIA Guo-kai.Application of vulnerable index method in the assessment of water outbursts from coal seam floor[J].China Coal,2010,36(6):15-22.
[17]武 强,庞 伟,戴迎春,等.煤层底板突水脆弱性评价的GIS与ANN耦合技术[J].煤炭学报,2006,31(3):314-319. WU Qiang,PANG Wei,DAI Ying-chun,et al.Vulnerability forecasting model based on coupling technique of GIS and ANN in floor groundwater bursting[J].Journal of China Coal Society,2006,31(3):314-319.
[18]张小明,武 强,刘红艳,等.集贤井田煤层顶板危险性综合评价与防治对策研究[J].煤炭工程,2016,48(11):56-59. ZHANG Xiao-ming,WU Qiang,LIU Hong-yan,et al.Comprehensive evaluation for water hazard risk incoal seam roof of Jixian Mining Field and the preventive countermeasures[J].Coal Engineering,2016,48(11):56-59.
[19]张忠温,武 强,付恩军,等.平朔井工开采煤层顶底板水文地质条件评价及防治水对策研究[J].中国工程科学,2011,13(11):94-101. ZHANG Zhong-wen,WU Qiang,Fu En-jun,et al.Coal seam roof and floor hydrogeology conditions evaluation of Pingshuo No.1 mine and measures of preventing water bursting[J].Engineering Science,2011,13(11):94-101.
[20]冯书顺,武 强.基于AHP-变异系数法综合赋权的含水层富水性研究[J].煤炭工程,2016,48(11):138-140. FENG Shu-shun,WU Qiang.Research on water-richness of aquifer using comprehensive weight method based on AHP and variation coefficient[J].Coal Engineering,2016,48(11):138-140.
[21]张海荣,周荣福,郭达志,等.基于GIS复合分析的煤矿顶板水害预测研究[J].中国矿业大学学报,2005,34(1):112-116. ZHANG Hai-rong,ZHOU Rong-fu,GUO Da-zhi,et al.Investigation on predicting roof water gush in coal mines based on multi-factor analysis[J].Journal of China University of Mining & Technology,2005,34(1):112-116.
[22]Saaty T L.The analytic hierarchy process[M].New York:McGrawlill,1980.
[23]许树柏.层次分析法原理[M].天津:天津大学出版社,1998. XU Shu-bai.Principle of analytic hierarchy[M].Tianjin:Tianjin University Press,1998.
[24]于小鸽,王丹丹,施龙青,等.基于层次分析法的含水层富水性特征分析[J].煤炭技术,2016,35(10):152-154. YU Xiao-ge,WANG Dan-dan,SHI Long-qing,et al.Water-richness evaluation method of water-filled aquifer characteristics analysis based on evaluation method[J].Coal Technology,2016,35(10):152-154.
[25]施龙青,于小鸽,魏久传,等.华丰井田4煤层顶板砂砾岩水突出影响因素分析[J].中国矿业大学学报,2010,39(1):26-31. SHI Long-qing,YU Xiao-ge,WEI Jiu-chuan,et al.An analysis of factors affecting water-inrush from thenumber 4 coal-seam roof conglomerate in the Huafeng coal mine[J].Journal of China University of Mining and Technology,2010,39(1):26-31.
[26]邓 雪,李家铭,曾浩健,等.层次分析法权重计算方法分析及其应用研究[J].数学的实践与认识,2012,42(7):93-100. DENG Xue,LI Jia-ming,ZENG Hao-jian,et al.Research on computation methods of AHP wight vector and its applications[J].Mathematics in Practice and Theory,2012,42(7):93-100.
[27]王广弟.基于模糊层次分析法的含水层富水性研究[J].煤炭技术,2016,35(8):209-210. WANG Guang-di.Research on water-richness of aqui fer based on fuzzy analytical hierarchy process[J].Coal Technology,2016,35(8):209-210.
[28]王广弟,刘雨琪,刘红艳.含水层富水性分区的无量纲与可拓层次分析法研究[J].煤炭工程,2016,48(11): 145-151. WANG Guang-di,LIU Yu-qi,LIU Hong-yan.Research on water-richness of aquifer division based on non-dimensional and the extensional analytical hierarchy process[J].Coal Engineering,2016,48(11):145-151.
[29]牛鹏堃,李 哲,宫厚健,等.基于GIS的层次分析法在古风化壳隔水性能评价中的应用[J].煤炭技术,2018,37(7):128-131. NIU Peng-kun,LI Zhe,GONG Hou-jian,et al.Application of analytic hierarchy process based on GIS to evaluate waterproof performance of ancient weathering crust[J].Coal Technology,2018,37(7):128-131.
[30]武 强,许 珂,张 维.再论煤层顶板涌(突)水危险性预测评价的“三图-双预测法”[J].煤炭学报,2016,41(6):1341-1347. WU Qiang,XU Ke,ZHANG Wei.Further research on“three maps-two predictions”method for prediction on coal seam roof water bursting risk[J].Journal of China Coal Society,2016,41(6):1341-1347.
[31]李志明.大采深高承压矿井水文地质条件及防治水技术[J].煤炭科学技术,2010,38(9):104-108. LI Zhi-ming.Hydrological condition and mine water prevention and control technology of mine with deep mining depth and high pressure bearing[J].Coal Science and Technology,2010,38(9):104-108.

备注/Memo

备注/Memo:
收稿日期:2018-06-11 责任编辑:李克永
基金项目:国土资源部煤炭资源勘查与综合利用重点实验室自主研究课题(ZZ2016-1)
通信作者:王生全(1961-),男,陕西岐山人,教授,E-mail:363191442@qq.com
更新日期/Last Update: 2018-11-15