平朔一号井工矿顶板水害评价方法与应用研究
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摘要
通过区域水文地质条件的理论分析,和矿井暴露的特征研究,确定了平朔一号井工矿在受担水沟断层对地下水阻拦下所处的径流-排泄区位置和矿井水文地质条件中等的情况。以平朔一号井工矿太西采区为例,运用顶板“三图双预测”理论,通过以GIS的AHP方法的叠加,生成了顶板富水性分区图,并结合充水水源判释、充水通道分析,与地面瞬变电磁和井下音频电透探测的结果互为验证;在划分三带的基础上,通过理论分析建立了工程地质模型,并运用FLAC3D进行数值模拟,得出了开采冒裂性分区图;顶板富水性分区图与开采冒裂性分区图叠加,生成了顶板涌突水条件综合分区图,
以此圈定了顶板危险区以及较危险区域,为成功运用“双预测”法奠定了基础。在建立顶板水文地质模型基础上,应用MODFLOW地下水流模拟软件对顶板冒裂处理前后矿井涌水量进行了分区、时的预算评价。结合矿井生产地质条件和顶板涌突水条件综合分区,针对性的对一号井工矿五大水源的防治提出了综合措施。
Through the theoretical analysis about regional hydrogeology condition, and the same conditions of mine to be exposed, the runoff and excretion position of Pingshuo No.1 Shaft under the condition that the Danshuigou fault discourages the groundwater and medium mine hydrogeological conditions was determined. Based on "three maps and two predictions" method, using Taixi mining area of No.1 Shaft as prototype, through method of GIS-AHP superposition, the zone map of roof water which is analyzed by sufficient water and full of water was accomplished. With the actual production issues in mine and the outcome of transient electromagnetic exploration, the map and the results are verified each other. Based on the triple-zone divided, the engineering geological model was established through the theoretical analysis. The range of caving zone and height was attained by using numerical stimulation of FLAC3D. Overlaid the zone map of roof water gushing condition and division graph of caving zone, the water-inrush condition was generated.
As the way, the risk and the next level risk zoning of caving zone that has been base of "two predictions" method were divided. The hydrology model of roof was established, and we utilized MODFLOW the groundwater flow simulation software to budget and evaluate the water-bursting inflows of previous and following the caving. And combinning with productive geological conditions and the water-inrush condition, the comprehensive control measures of five water sources were put forward.
以此圈定了顶板危险区以及较危险区域,为成功运用“双预测”法奠定了基础。在建立顶板水文地质模型基础上,应用MODFLOW地下水流模拟软件对顶板冒裂处理前后矿井涌水量进行了分区、时的预算评价。结合矿井生产地质条件和顶板涌突水条件综合分区,针对性的对一号井工矿五大水源的防治提出了综合措施。
Through the theoretical analysis about regional hydrogeology condition, and the same conditions of mine to be exposed, the runoff and excretion position of Pingshuo No.1 Shaft under the condition that the Danshuigou fault discourages the groundwater and medium mine hydrogeological conditions was determined. Based on "three maps and two predictions" method, using Taixi mining area of No.1 Shaft as prototype, through method of GIS-AHP superposition, the zone map of roof water which is analyzed by sufficient water and full of water was accomplished. With the actual production issues in mine and the outcome of transient electromagnetic exploration, the map and the results are verified each other. Based on the triple-zone divided, the engineering geological model was established through the theoretical analysis. The range of caving zone and height was attained by using numerical stimulation of FLAC3D. Overlaid the zone map of roof water gushing condition and division graph of caving zone, the water-inrush condition was generated.
As the way, the risk and the next level risk zoning of caving zone that has been base of "two predictions" method were divided. The hydrology model of roof was established, and we utilized MODFLOW the groundwater flow simulation software to budget and evaluate the water-bursting inflows of previous and following the caving. And combinning with productive geological conditions and the water-inrush condition, the comprehensive control measures of five water sources were put forward.
引文
1. 毛节华,许惠龙.中国煤炭资源分布现状和远景预测.煤田地质与勘探.1999(27)3:1-4
2. 佚名.中国整体煤炭资源保障分析与对策一与二.聪慧网,2002.7.02
3. 中国统配煤矿总公司技术发展局.华北型煤田奥灰岩溶水综合防治工业性试验成果报告[R].国家工业性试验项目,1989
4. 王学军,杨建华,王成之,等.济三煤矿矿井水害分析及防治[J].山东煤炭科技,1994.4:33-35
5. 余霈,叶贵钧一个成功的经验—“中国北方岩溶”研究项目圆满成功[J].中国地质,1990.10:5-7
6. Allen W. Hatheway, Yuji Kanaori. Encompassing hydrogeology, environmental geology and the applied geosciences[J]. Engineering Geolog,65 (2002):47-79
7. 薛禹群.地下水动力学[M].北京:地质出版社,2001
8. Allen W. Hatheway, George M. Reeves. A second review of the international status of engineering geology-encompassing hydrogeology, environmental geology and the applied geosciences [J]. Engineering Geology 53(1999):259-296
9. 朱学愚.地下水水文学[M].北京:中国环境科学出版社,2005
10.潘岳,王志强,张勇,等.突变理论在岩体系统动力是稳重的应用[M]北京:科学出版社,2009
11.凌华.突变理论及其应用[M].上海:上海交通大学出版社,1987.
12.许家林,钱鸣高.岩层采动裂隙分布在绿色开采中的应用[J].中国矿业大学学报,2004,33(2):33-35
13.钱鸣高,缪协兴,许家林,等.岩层控制中的关键层理论研究[J].煤炭学报,1996,21(31):44-47
14.刘卫群,顾正虎,王波,等.顶板隔水层关键层耦合作用规律研究[J].中国矿业大学学报,2006.35(4):427-430
15.靳德武.采煤工作面煤层底板突水预报泛决策分析理论研究综述[J].焦作工学院学报,2000,04:246-249
16.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
17.武强.华北型煤田矿井防治水决策系统[M].北京:煤炭工业出版社,1995
18.武强,徐建芳,董东林,等.基于GIS的地质灾害和水资源研究理论与方法[M].北京:地质出版社,2001:129-130
19.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,2000,02,25(1):60-65
20.武强,江中云,孙东云,等.东欢坨矿顶板涌水条件与工作面水量动态预测[J].煤田地质与勘探,2000,12,28(6):32-35
21.武强,付耀军,杨明,等.基于GIS RS与AHP耦合技术的矿山水力侵蚀研究[J].煤田地质与勘探,2004,32(06)35-38.
22.武强,魏学勇,张宏,等.开滦东欢坨矿北二采区冒裂带高度可视化数值模拟[J].煤田地质与勘探,2002,30(05):41-43.
23.刘传娥,魏久传,郭建斌,等.多因素复合法评价煤层顶板水害危险性[J].山东煤炭科技,2010,01:180-181
24. Qiang Wu, Hua Xu, Wei Pang. GIS and ANN coupling model:an innovative approach to evaluate vulnerability of karst water inrush in coalmines of north China [J]. Environ Geol. (2008) 54:937-943
25. Sun Xiao-ming, Cai Feng, Yang Jun, et al. Nu-merical simulation of the effect of coupling support of bolt-mesh-anchor in deep tunnel [J]. Mining Scienceand Technoloy,2009,19(3):352-357
26.殷黎明,杨春和,王贵宾,等.地应力对裂隙岩体渗流特性影响的研究明.岩石力学与工程学报,2005,24(17):3071-3075
27.李柏年.模糊数学及其应用[M].安徽:合肥工业大学出版社,2007
28.陈述彭.地理信息系统概论[M].北京:科学出版社,1999
29.武强,杨明,董东林,等.基于GIS与AHP耦合技术的土地沙漠化模型研究[J].工程勘察,2003(2)30-33
30.武强,徐建芳,董东林,等.基于GIS的地质灾害和水资源研究理论与方法[M].北京:煤炭工业出版社,1995
31.武强,解淑寒,裴振江,等.煤层底板突水评价的新型实用方法Ⅲ——基于GIS的ANN型脆弱性指数法应用[J].煤炭学报,2007,32(12):1301-1306
32.盛金昌,速宝玉,王媛,等.裂隙岩体渗流-弹塑性耦合分析[J].岩石力学与工程学报,2000,19(3):303-308
33.管恩太,武强,冀焕军,等.煤矿底板突水的多源地学信息复合模型研究—以焦作演马庄为例[J].工程勘察,2001(4):18-21
34. Saaty T L. The analytic hierarchy process [M]. New York:McGraw-Hill, 1980
35. Saaty T L. A scaling method for priorities in hierarchical structures [J]. Journal of Mathematical Psychology, 1977(1):234-281
36.武强,戴国锋,吕华,等.基于ANN与GIS耦合技术的地下水污染敏感性评价[J].中国矿业大学学报,2006,35(4):431-436
37.王国利,梁国华.系统决策的多层次多目标模糊优选模型与应用[J]..水文,2009,29(06):24-26
38. Peach C J, Spiers C J. Influence of crystal plastic deformation on dilatancy and permeability development in synthetic salt rock [J]. Tectonophysics,1996,256:101-128
39.林学珏,廖资生,赵勇胜,等.现代水文地质学[M]..北京:地质出版社,2005.
40.陈锁忠,黄家柱,闾国年,等.“环套理论”在镇江缺水丘陵山区勘查中的应用[J]..工程勘察,2001.04:35-38
41.许学汉,王杰..煤矿突水预报研究[M]..北京:地质出版社,1991
42. Ge baoming, Wang xiangheng, Su pengsheng,, et al. Nolin-ear internal-model control for switched reluctance drives[J].IEEETrans on Industrial Electronics,2002,17(3):379-388
43. Cannon, M. Efficient nonlinear model predictive control algorithms[J].Annual Reviews in Control,2004, 28:229-237
44.薛禹群,谢春红.地下水数值模拟[M]..北京:科学出版社,1992
45. Wang H F and M. P. Introduction to groundwater modeling-finite difference and finite element methods [M]. San Francisco:W. H. Freeman and Company,1982
46.杨起,韩德馨.中国煤田地质学[M].北京:煤炭工业出版社,1980
47.平朔矿区安家岭一、二号井工矿防治水水文地质勘查报告[M]..中国煤炭地质总局第一水文地质队,2009
48.山西省平朔安家岭一号井工矿生产矿井地质报告[M].山西省煤炭地质115勘察院,2005
49. S.K. Sandberg,, L.D. Slater, R. Versteegc. An integrated geophysical investigation of the hydrogeology of an anisotropic unconfined aquifer[J]. Journal of Hydrology 267 (2002):227-243
50.沈照理.水文地球化学基础[M].北京:地质出版版社,2009
51.韩永,王广才,邢立亭,等.地下水放射性同位素测年方法研究新进展[J].煤田地质与勘探,2009,37(5)37-42
52.G.福尔.同位素地质学原理[M].北京:科学出版社,1983
53.张人权等.同位素方法在水文地质中的应用[M]..北京:地质出版社,1983
54.佟风健,孟新华..构造控水理论在煤矿生产中的指导作用[J].煤矿安全,1999,30(5):11-12
55.谢海军.煤矿采空区积水瞬变电磁探测技术研究[D].中国地质大学(北京),2009
56. A. Mukhopadhyay, J. Al-Sulaimi, E. Al-Awadi. An overview of the Tertiary geology and hydrogeology of the northern part of the Arabian Gulf region with special reference to Kuwait [J]. Earth-Science Reviews 40 (1996)259-295
57.赵全福主编.煤矿安全手册[M].北京:煤炭工业出版社,1992
58.柴登榜..矿井地质工作手册[M]..北京:煤炭工业出版社,1984
59.矿井水文地质规程(试行)[M]...北京:煤炭工业出版社,1984
60. J.Boonstra,N. A.de Ridder.Numerical modeling of groundwater basins[M]. ILR.Wageningen,The Netherlands
61. Yang T H, Li L C, Tham L G et al. Numerical approach to hydraulic fracturing in heterogeneous and permeable rocks [J]. Key Engineering Materials,2003:243-244
62.武强,董东林.水资源评价的可视化专业软件(VisualModflow)与应用潜力[J]..水文地质工程地质,1999, 26(5):21-23
63.陈俊,宫鹏.成功地理信息系统的建设与管理[J].北京:科学出版社,1998.
64. Qiang Wu, Hua Xu, Wanfang Zhou. Development of a 3D GIS and its application to karst areas [J]. Environ Geol,2008,54:1037-1045
65.田开铭,万力.各向异性裂隙介质渗透性的研究与评价[M].北京:学苑出版社,1989
66. Tang C A, Yang T H, Tham L Qet al. Coupled analysis of flow, stress and damage (FSD) in rock failure-Part [J]:Fundamentals. Int. J. Rock Mech. Min. Sci.,2001,39:477-489
67.孙广忠.岩体结构力学[M].北京:科学出版社,1988
68.李莉,胡建平.克里金插值算法在等高线绘制中的应用[J].天津城市学院学报,2008,14(01):68-71
69. Xu Y P, Zhou D. Three-dimensional elasticity solution for simply supported rectangular plates with variable thickness[J]. J Strain Anal Eng Des,2008,43 (3):165-176
70. Dumir P C. Nonlinear vibration and postbucking of isotropic thin circular plate on elastic foundation [J] Journal of Sound and Vibration,1986,107(2):253-263
71.夏志皋.塑性力学[M].上海:同济大学出版社,2008
72..徐连利.谈钻探施工过程简易水文地质观测工作的重要性[J].煤矿深部开采地质保障技术研究与应用[C]:185-191,北京:煤炭工业出版社,2009
73.马淑芝,贾洪彪,唐辉明,等.利用岩体裂隙率评价工程岩体的质量[J].水文地质工程地质,29(1):10-13
74. Y. Guglielmia. Cappaa, J. Rutqvistb. Tsangb. Thoraval etc. Mesoscale characterization of coupled hydromechanical behavior of afractured-porous slope in response to free water-surface movement [J]. International Journal of Rock Mechanics & Mining Sciences,2008,45:862-878
75.仵彦卿,张倬元.岩体水力学导论[M].成都:西南交通大学出版社,1995
76.徐连利,牛志刚,高建中,等.大口径群孔抽水试验成果在评价赵固一井水文地质条件中的应用[J].中国煤炭地质,2005,17(6):17-19.
77. Stoemont J C, Daemen J J K. Laboratory study of gas permeability changes in rock salt during deformation [J]. Int. J.Rock Mech. Min. Sci.,1992,29:323-342
78.毛昶熙.裂隙岩体渗流计算方法研究[J].岩土工程学报,1991,13(6):1-10
79.潘国营,武强..裂隙水运动理论与渗流模拟实践[M].武汉:中国地质大学出版社,2001
80. Makoto Taniguchi, Jun Shimada, Yoichi Fukuda etc. Anthropogenic effects on the subsurface thermal and groundwater environments in Osaka, Japan and Bangkok, Thailand [J]. Science of the totale environment 2009,407:3153-3164
81. Zhang J C, Bai M, Roegiers J C et al. Experimental determination of stress-permeability relationship. Pacific Rock Girard, Liebman, Breeds & Doe, Balkema, Rotterdam,2000:817-822
82.贾洪彪,唐辉明,刘佑荣,等.岩体结构面三维网络模拟理论与工程应用[M].北京:科学出版社,2008
83. Howard J H, Nolen-Hoeksema R C. Description of natural fracture system for quantitative use in petroleum geology [J]. AAPG Bullettin,1990,74:151-162,
84.陈崇希,胡立堂.渗流—管流耦合模型及其应用综述[J].水文地质工程地质,2008,3:70-75
85. Mordecai M, Morris L H. An investigation into the changes of permeability occurring in a sandstone when failed under triaxial stress conditions [J]. Proc. U.S. Rock Mech. Symp.,1971,12:221-239
86.张金才,刘天泉,张玉卓,等.裂隙岩体渗透特征的研究[J].煤炭学报,1997.10:481-485
87.张金才,张玉卓.应力对裂隙岩体渗流影响的研究[J].岩土工程学报,1998.02:481-485
88..徐德敏,黄润秋,邓英尔,等.低渗透软弱岩非达西流拟启动梯度压力试验研究[J].水文地质工程地质,2008,35(03):57-60
89. Oda M T, Takemura A, Aoki T. Damage growth and permeability change in triaxial compression tests of India granite [J]. Mechanics of Materials,2002,34:313-331
90.魏斌,张凤山,刘凤亮,等.裂缝性储层流体类型识别技术[M].北京:地质出版社,2004
91. Barenlatt G I, Zheltov I P Kochina I N. Basic concepts in the theory of seepage of homogeneous liquids in fissured rocks [J]. Appl Math Mech,1964,24:1286-1303
92.孟召平,彭苏萍,黎洪,等.正断层附近煤的物理力学性质变化及其对矿压分布的影响[J].煤炭学报,2001,26(6):561-566
93. Longqing Shi, R.N.singh.Study of mine water inrush from floor strata through fault [J]. Mine Water and the Environment (2001) 20:140-147
94.黄克中,毛善培.随机方法与模糊数学应用[M].上海:同济大学出版社,1987
95.刘伟韬,宋传文,张国玉,等.底板突水的专家评分——层次分析预测与评价[J].工程勘察,2002,(1):97-110
96.许树柏.层次分析法原理[M].天津:天津大学出版社,1987
97.潘寒尽,张多林.AHP存在的问题及改进方法[J].航空兵器.2006,6:16-17
98.许树柏.层次分析法原理[M].天津:天津大学出版社,1998
99.杜之韩.判断矩阵一致性检验的新途径[J].系统工程理论与实践,1998,18(6):102-104
100.煤炭科学院西安分院.安家岭一号井工矿太西采区4106工作面音频电透工作报告[R].2009
101.胡永达.音频电透视在底板富水性预测中的应用[J].安徽理工大学学报(自然科学版),2008,(2):102-104
102.钱鸣高,石平五.矿山压力与岩层控制[M].徐州:中国矿业大学出版社,2003
103.钱鸣高,缪协兴,许家林,等.岩层控制中的关键层理论[J].煤炭学报,1996,21(3):225-230
104. M.A. Coulthard. Applications of numerical modelling in underground mining and construction [J]. Geotechnical and Geological Engineering,1999,(17):3-4
105.武强,姜振泉,李云龙,等.山西断陷盆地地裂缝灾害研究[M].地质出版社,2003
106. L. Bouchaou, J.L. Michelot, A. Vengosh, Y. Hsissou, M. Qurtobi etc. Application of multiple isotopic and geochemical tracers for investigation of recharge, salinization, and residence time of water in the Souss-Massa aquifer, southwest of Morocco [J]. Journal of Hydrology (2008) 352,267-287
107.刘广庆,于旭磊,李凤海.矿井顶板水害预测与防治专家系统[J].中国地质灾害与防治学报,2001,12(01)71-74
108.周维恒.高等岩石力学[M].北京:水利电力出版社,1993
109.彭苏萍,孟召平.矿井工程地质理论与实践[M].北京:地质出版社,2002.1
110.孟召平.煤层顶板沉积岩体结构及其对顶板稳定性的影响[D].北京:中国矿业大学(北京),1999
111.徐志斌,谢和平.最大转动角梯度准则在断层预测中的应用研究(Ⅰ)——断层构造转动和形变的度量及变形岩层初始位形的恢复[J],中国矿业大学学报,2000,19(2):124-128
112.陈育民徐鼎平.FLAC/FLAC3D基础与工程实例[M].北京:中国水利水电出版社,2009.01
113.彭文斌.FLAC 3D实用教程[M].北京:机械工业出版社,2008.01
114.刘同彬,施龙青,韩进,等.导水断裂带高度理论计算[J]煤炭学报,2006,31:93-96
115.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(05):59-62
116.黎良杰,殷有泉.评价矿井突水危险性的关键层方法[J].力学与实践,1998,20(3):34-36
117. Qiang Wu, Wanfang Zhou. Prediction of inflow from overlying aquifers into coalmines:a case study in Jinggezhuang Coalmine, Kailuan, China [J]. Environ Geol (2008) 55:775-780
118. F.Yu, Chenghu. Research of the 4th generation GIS software [J]. Journal of Imageand GraPhics, No.6, 2001:817-82
119. Toth J.A theoretical analysis of groundwater flow in small drainage basin [J]. geophy Research,1963, 67(11):4375-4387
120.尹尚先,王尚旭.陷落柱影响采场围岩破坏和底板突水的数值模拟分析[M].煤炭学报,2003,28(3):264-269
121. N.Doerffiger·P-Y. Jeannin·F.Zwahlen.Water vulnerability assessment in karst environments:a new method of defining protection areas using a mult-attribute approach and GIS tools (EPIK method) [J]. Environment Geology,1999,39(2):165-167.
122.李庆扬,王能超,易大义等.数值分析[M].北京:清华大学出版社,2008
123. J.A.RayP.W.O.dell. DIVERSITY:A new method for evaluating sensitivity of groundwater to contamination [J]. Environment Geology,1993(22):345-352.
124.郭惟嘉,刘杨贤.底板突水系数概念及其应用[J].河北煤炭,1989,02:56-60
125.武强.矿井水灾防治[M].徐州:中国矿业大学出版社,2002
126.王成绪,王红梅.煤矿防治水理论与实践的思考[J].煤田地质与勘探,2004,32(zl):100-103
127.靳德武,刘其声,王琳,等.煤矿(床)水文地质学的研究现状及展望[J].煤田地质与勘探,2009,37(5):28-36
128.中国煤炭工业劳动保护科学技术学会组织编写.矿井水害防治技术[M].北京:煤炭工业出版社,2007
129.徐连利.煤矿隔离帷幕注浆截流技术[J].《中国煤炭》,2008.09:53-55
130.许学汉,王杰.煤矿突水预报研究[M].北京:地质出版社,1991
131.商登莹,武强,赵苏启,等.煤矿防治水工作指南[M].北京:国家煤矿安全监察局,2006
2. 佚名.中国整体煤炭资源保障分析与对策一与二.聪慧网,2002.7.02
3. 中国统配煤矿总公司技术发展局.华北型煤田奥灰岩溶水综合防治工业性试验成果报告[R].国家工业性试验项目,1989
4. 王学军,杨建华,王成之,等.济三煤矿矿井水害分析及防治[J].山东煤炭科技,1994.4:33-35
5. 余霈,叶贵钧一个成功的经验—“中国北方岩溶”研究项目圆满成功[J].中国地质,1990.10:5-7
6. Allen W. Hatheway, Yuji Kanaori. Encompassing hydrogeology, environmental geology and the applied geosciences[J]. Engineering Geolog,65 (2002):47-79
7. 薛禹群.地下水动力学[M].北京:地质出版社,2001
8. Allen W. Hatheway, George M. Reeves. A second review of the international status of engineering geology-encompassing hydrogeology, environmental geology and the applied geosciences [J]. Engineering Geology 53(1999):259-296
9. 朱学愚.地下水水文学[M].北京:中国环境科学出版社,2005
10.潘岳,王志强,张勇,等.突变理论在岩体系统动力是稳重的应用[M]北京:科学出版社,2009
11.凌华.突变理论及其应用[M].上海:上海交通大学出版社,1987.
12.许家林,钱鸣高.岩层采动裂隙分布在绿色开采中的应用[J].中国矿业大学学报,2004,33(2):33-35
13.钱鸣高,缪协兴,许家林,等.岩层控制中的关键层理论研究[J].煤炭学报,1996,21(31):44-47
14.刘卫群,顾正虎,王波,等.顶板隔水层关键层耦合作用规律研究[J].中国矿业大学学报,2006.35(4):427-430
15.靳德武.采煤工作面煤层底板突水预报泛决策分析理论研究综述[J].焦作工学院学报,2000,04:246-249
16.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
17.武强.华北型煤田矿井防治水决策系统[M].北京:煤炭工业出版社,1995
18.武强,徐建芳,董东林,等.基于GIS的地质灾害和水资源研究理论与方法[M].北京:地质出版社,2001:129-130
19.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,2000,02,25(1):60-65
20.武强,江中云,孙东云,等.东欢坨矿顶板涌水条件与工作面水量动态预测[J].煤田地质与勘探,2000,12,28(6):32-35
21.武强,付耀军,杨明,等.基于GIS RS与AHP耦合技术的矿山水力侵蚀研究[J].煤田地质与勘探,2004,32(06)35-38.
22.武强,魏学勇,张宏,等.开滦东欢坨矿北二采区冒裂带高度可视化数值模拟[J].煤田地质与勘探,2002,30(05):41-43.
23.刘传娥,魏久传,郭建斌,等.多因素复合法评价煤层顶板水害危险性[J].山东煤炭科技,2010,01:180-181
24. Qiang Wu, Hua Xu, Wei Pang. GIS and ANN coupling model:an innovative approach to evaluate vulnerability of karst water inrush in coalmines of north China [J]. Environ Geol. (2008) 54:937-943
25. Sun Xiao-ming, Cai Feng, Yang Jun, et al. Nu-merical simulation of the effect of coupling support of bolt-mesh-anchor in deep tunnel [J]. Mining Scienceand Technoloy,2009,19(3):352-357
26.殷黎明,杨春和,王贵宾,等.地应力对裂隙岩体渗流特性影响的研究明.岩石力学与工程学报,2005,24(17):3071-3075
27.李柏年.模糊数学及其应用[M].安徽:合肥工业大学出版社,2007
28.陈述彭.地理信息系统概论[M].北京:科学出版社,1999
29.武强,杨明,董东林,等.基于GIS与AHP耦合技术的土地沙漠化模型研究[J].工程勘察,2003(2)30-33
30.武强,徐建芳,董东林,等.基于GIS的地质灾害和水资源研究理论与方法[M].北京:煤炭工业出版社,1995
31.武强,解淑寒,裴振江,等.煤层底板突水评价的新型实用方法Ⅲ——基于GIS的ANN型脆弱性指数法应用[J].煤炭学报,2007,32(12):1301-1306
32.盛金昌,速宝玉,王媛,等.裂隙岩体渗流-弹塑性耦合分析[J].岩石力学与工程学报,2000,19(3):303-308
33.管恩太,武强,冀焕军,等.煤矿底板突水的多源地学信息复合模型研究—以焦作演马庄为例[J].工程勘察,2001(4):18-21
34. Saaty T L. The analytic hierarchy process [M]. New York:McGraw-Hill, 1980
35. Saaty T L. A scaling method for priorities in hierarchical structures [J]. Journal of Mathematical Psychology, 1977(1):234-281
36.武强,戴国锋,吕华,等.基于ANN与GIS耦合技术的地下水污染敏感性评价[J].中国矿业大学学报,2006,35(4):431-436
37.王国利,梁国华.系统决策的多层次多目标模糊优选模型与应用[J]..水文,2009,29(06):24-26
38. Peach C J, Spiers C J. Influence of crystal plastic deformation on dilatancy and permeability development in synthetic salt rock [J]. Tectonophysics,1996,256:101-128
39.林学珏,廖资生,赵勇胜,等.现代水文地质学[M]..北京:地质出版社,2005.
40.陈锁忠,黄家柱,闾国年,等.“环套理论”在镇江缺水丘陵山区勘查中的应用[J]..工程勘察,2001.04:35-38
41.许学汉,王杰..煤矿突水预报研究[M]..北京:地质出版社,1991
42. Ge baoming, Wang xiangheng, Su pengsheng,, et al. Nolin-ear internal-model control for switched reluctance drives[J].IEEETrans on Industrial Electronics,2002,17(3):379-388
43. Cannon, M. Efficient nonlinear model predictive control algorithms[J].Annual Reviews in Control,2004, 28:229-237
44.薛禹群,谢春红.地下水数值模拟[M]..北京:科学出版社,1992
45. Wang H F and M. P. Introduction to groundwater modeling-finite difference and finite element methods [M]. San Francisco:W. H. Freeman and Company,1982
46.杨起,韩德馨.中国煤田地质学[M].北京:煤炭工业出版社,1980
47.平朔矿区安家岭一、二号井工矿防治水水文地质勘查报告[M]..中国煤炭地质总局第一水文地质队,2009
48.山西省平朔安家岭一号井工矿生产矿井地质报告[M].山西省煤炭地质115勘察院,2005
49. S.K. Sandberg,, L.D. Slater, R. Versteegc. An integrated geophysical investigation of the hydrogeology of an anisotropic unconfined aquifer[J]. Journal of Hydrology 267 (2002):227-243
50.沈照理.水文地球化学基础[M].北京:地质出版版社,2009
51.韩永,王广才,邢立亭,等.地下水放射性同位素测年方法研究新进展[J].煤田地质与勘探,2009,37(5)37-42
52.G.福尔.同位素地质学原理[M].北京:科学出版社,1983
53.张人权等.同位素方法在水文地质中的应用[M]..北京:地质出版社,1983
54.佟风健,孟新华..构造控水理论在煤矿生产中的指导作用[J].煤矿安全,1999,30(5):11-12
55.谢海军.煤矿采空区积水瞬变电磁探测技术研究[D].中国地质大学(北京),2009
56. A. Mukhopadhyay, J. Al-Sulaimi, E. Al-Awadi. An overview of the Tertiary geology and hydrogeology of the northern part of the Arabian Gulf region with special reference to Kuwait [J]. Earth-Science Reviews 40 (1996)259-295
57.赵全福主编.煤矿安全手册[M].北京:煤炭工业出版社,1992
58.柴登榜..矿井地质工作手册[M]..北京:煤炭工业出版社,1984
59.矿井水文地质规程(试行)[M]...北京:煤炭工业出版社,1984
60. J.Boonstra,N. A.de Ridder.Numerical modeling of groundwater basins[M]. ILR.Wageningen,The Netherlands
61. Yang T H, Li L C, Tham L G et al. Numerical approach to hydraulic fracturing in heterogeneous and permeable rocks [J]. Key Engineering Materials,2003:243-244
62.武强,董东林.水资源评价的可视化专业软件(VisualModflow)与应用潜力[J]..水文地质工程地质,1999, 26(5):21-23
63.陈俊,宫鹏.成功地理信息系统的建设与管理[J].北京:科学出版社,1998.
64. Qiang Wu, Hua Xu, Wanfang Zhou. Development of a 3D GIS and its application to karst areas [J]. Environ Geol,2008,54:1037-1045
65.田开铭,万力.各向异性裂隙介质渗透性的研究与评价[M].北京:学苑出版社,1989
66. Tang C A, Yang T H, Tham L Qet al. Coupled analysis of flow, stress and damage (FSD) in rock failure-Part [J]:Fundamentals. Int. J. Rock Mech. Min. Sci.,2001,39:477-489
67.孙广忠.岩体结构力学[M].北京:科学出版社,1988
68.李莉,胡建平.克里金插值算法在等高线绘制中的应用[J].天津城市学院学报,2008,14(01):68-71
69. Xu Y P, Zhou D. Three-dimensional elasticity solution for simply supported rectangular plates with variable thickness[J]. J Strain Anal Eng Des,2008,43 (3):165-176
70. Dumir P C. Nonlinear vibration and postbucking of isotropic thin circular plate on elastic foundation [J] Journal of Sound and Vibration,1986,107(2):253-263
71.夏志皋.塑性力学[M].上海:同济大学出版社,2008
72..徐连利.谈钻探施工过程简易水文地质观测工作的重要性[J].煤矿深部开采地质保障技术研究与应用[C]:185-191,北京:煤炭工业出版社,2009
73.马淑芝,贾洪彪,唐辉明,等.利用岩体裂隙率评价工程岩体的质量[J].水文地质工程地质,29(1):10-13
74. Y. Guglielmia. Cappaa, J. Rutqvistb. Tsangb. Thoraval etc. Mesoscale characterization of coupled hydromechanical behavior of afractured-porous slope in response to free water-surface movement [J]. International Journal of Rock Mechanics & Mining Sciences,2008,45:862-878
75.仵彦卿,张倬元.岩体水力学导论[M].成都:西南交通大学出版社,1995
76.徐连利,牛志刚,高建中,等.大口径群孔抽水试验成果在评价赵固一井水文地质条件中的应用[J].中国煤炭地质,2005,17(6):17-19.
77. Stoemont J C, Daemen J J K. Laboratory study of gas permeability changes in rock salt during deformation [J]. Int. J.Rock Mech. Min. Sci.,1992,29:323-342
78.毛昶熙.裂隙岩体渗流计算方法研究[J].岩土工程学报,1991,13(6):1-10
79.潘国营,武强..裂隙水运动理论与渗流模拟实践[M].武汉:中国地质大学出版社,2001
80. Makoto Taniguchi, Jun Shimada, Yoichi Fukuda etc. Anthropogenic effects on the subsurface thermal and groundwater environments in Osaka, Japan and Bangkok, Thailand [J]. Science of the totale environment 2009,407:3153-3164
81. Zhang J C, Bai M, Roegiers J C et al. Experimental determination of stress-permeability relationship. Pacific Rock Girard, Liebman, Breeds & Doe, Balkema, Rotterdam,2000:817-822
82.贾洪彪,唐辉明,刘佑荣,等.岩体结构面三维网络模拟理论与工程应用[M].北京:科学出版社,2008
83. Howard J H, Nolen-Hoeksema R C. Description of natural fracture system for quantitative use in petroleum geology [J]. AAPG Bullettin,1990,74:151-162,
84.陈崇希,胡立堂.渗流—管流耦合模型及其应用综述[J].水文地质工程地质,2008,3:70-75
85. Mordecai M, Morris L H. An investigation into the changes of permeability occurring in a sandstone when failed under triaxial stress conditions [J]. Proc. U.S. Rock Mech. Symp.,1971,12:221-239
86.张金才,刘天泉,张玉卓,等.裂隙岩体渗透特征的研究[J].煤炭学报,1997.10:481-485
87.张金才,张玉卓.应力对裂隙岩体渗流影响的研究[J].岩土工程学报,1998.02:481-485
88..徐德敏,黄润秋,邓英尔,等.低渗透软弱岩非达西流拟启动梯度压力试验研究[J].水文地质工程地质,2008,35(03):57-60
89. Oda M T, Takemura A, Aoki T. Damage growth and permeability change in triaxial compression tests of India granite [J]. Mechanics of Materials,2002,34:313-331
90.魏斌,张凤山,刘凤亮,等.裂缝性储层流体类型识别技术[M].北京:地质出版社,2004
91. Barenlatt G I, Zheltov I P Kochina I N. Basic concepts in the theory of seepage of homogeneous liquids in fissured rocks [J]. Appl Math Mech,1964,24:1286-1303
92.孟召平,彭苏萍,黎洪,等.正断层附近煤的物理力学性质变化及其对矿压分布的影响[J].煤炭学报,2001,26(6):561-566
93. Longqing Shi, R.N.singh.Study of mine water inrush from floor strata through fault [J]. Mine Water and the Environment (2001) 20:140-147
94.黄克中,毛善培.随机方法与模糊数学应用[M].上海:同济大学出版社,1987
95.刘伟韬,宋传文,张国玉,等.底板突水的专家评分——层次分析预测与评价[J].工程勘察,2002,(1):97-110
96.许树柏.层次分析法原理[M].天津:天津大学出版社,1987
97.潘寒尽,张多林.AHP存在的问题及改进方法[J].航空兵器.2006,6:16-17
98.许树柏.层次分析法原理[M].天津:天津大学出版社,1998
99.杜之韩.判断矩阵一致性检验的新途径[J].系统工程理论与实践,1998,18(6):102-104
100.煤炭科学院西安分院.安家岭一号井工矿太西采区4106工作面音频电透工作报告[R].2009
101.胡永达.音频电透视在底板富水性预测中的应用[J].安徽理工大学学报(自然科学版),2008,(2):102-104
102.钱鸣高,石平五.矿山压力与岩层控制[M].徐州:中国矿业大学出版社,2003
103.钱鸣高,缪协兴,许家林,等.岩层控制中的关键层理论[J].煤炭学报,1996,21(3):225-230
104. M.A. Coulthard. Applications of numerical modelling in underground mining and construction [J]. Geotechnical and Geological Engineering,1999,(17):3-4
105.武强,姜振泉,李云龙,等.山西断陷盆地地裂缝灾害研究[M].地质出版社,2003
106. L. Bouchaou, J.L. Michelot, A. Vengosh, Y. Hsissou, M. Qurtobi etc. Application of multiple isotopic and geochemical tracers for investigation of recharge, salinization, and residence time of water in the Souss-Massa aquifer, southwest of Morocco [J]. Journal of Hydrology (2008) 352,267-287
107.刘广庆,于旭磊,李凤海.矿井顶板水害预测与防治专家系统[J].中国地质灾害与防治学报,2001,12(01)71-74
108.周维恒.高等岩石力学[M].北京:水利电力出版社,1993
109.彭苏萍,孟召平.矿井工程地质理论与实践[M].北京:地质出版社,2002.1
110.孟召平.煤层顶板沉积岩体结构及其对顶板稳定性的影响[D].北京:中国矿业大学(北京),1999
111.徐志斌,谢和平.最大转动角梯度准则在断层预测中的应用研究(Ⅰ)——断层构造转动和形变的度量及变形岩层初始位形的恢复[J],中国矿业大学学报,2000,19(2):124-128
112.陈育民徐鼎平.FLAC/FLAC3D基础与工程实例[M].北京:中国水利水电出版社,2009.01
113.彭文斌.FLAC 3D实用教程[M].北京:机械工业出版社,2008.01
114.刘同彬,施龙青,韩进,等.导水断裂带高度理论计算[J]煤炭学报,2006,31:93-96
115.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(05):59-62
116.黎良杰,殷有泉.评价矿井突水危险性的关键层方法[J].力学与实践,1998,20(3):34-36
117. Qiang Wu, Wanfang Zhou. Prediction of inflow from overlying aquifers into coalmines:a case study in Jinggezhuang Coalmine, Kailuan, China [J]. Environ Geol (2008) 55:775-780
118. F.Yu, Chenghu. Research of the 4th generation GIS software [J]. Journal of Imageand GraPhics, No.6, 2001:817-82
119. Toth J.A theoretical analysis of groundwater flow in small drainage basin [J]. geophy Research,1963, 67(11):4375-4387
120.尹尚先,王尚旭.陷落柱影响采场围岩破坏和底板突水的数值模拟分析[M].煤炭学报,2003,28(3):264-269
121. N.Doerffiger·P-Y. Jeannin·F.Zwahlen.Water vulnerability assessment in karst environments:a new method of defining protection areas using a mult-attribute approach and GIS tools (EPIK method) [J]. Environment Geology,1999,39(2):165-167.
122.李庆扬,王能超,易大义等.数值分析[M].北京:清华大学出版社,2008
123. J.A.RayP.W.O.dell. DIVERSITY:A new method for evaluating sensitivity of groundwater to contamination [J]. Environment Geology,1993(22):345-352.
124.郭惟嘉,刘杨贤.底板突水系数概念及其应用[J].河北煤炭,1989,02:56-60
125.武强.矿井水灾防治[M].徐州:中国矿业大学出版社,2002
126.王成绪,王红梅.煤矿防治水理论与实践的思考[J].煤田地质与勘探,2004,32(zl):100-103
127.靳德武,刘其声,王琳,等.煤矿(床)水文地质学的研究现状及展望[J].煤田地质与勘探,2009,37(5):28-36
128.中国煤炭工业劳动保护科学技术学会组织编写.矿井水害防治技术[M].北京:煤炭工业出版社,2007
129.徐连利.煤矿隔离帷幕注浆截流技术[J].《中国煤炭》,2008.09:53-55
130.许学汉,王杰.煤矿突水预报研究[M].北京:地质出版社,1991
131.商登莹,武强,赵苏启,等.煤矿防治水工作指南[M].北京:国家煤矿安全监察局,2006