引文
[1] 储绍良.矿井物探应用[M].北京:煤炭工业出版社,1995. Chu S L. Applications of coal mining geophysics . Beijing:Coal Industry Press, 1995.
[2] 河北省煤炭科技情报中心站.国外矿井物探技术及其发展趋向[J].河北煤炭,1981/01,17-21. The coal science and technology information center stations in Hebei. Foreign mine geophysical technology and its development trend[J]. Hebei Coal, 1981/01,17-21.
[3] 王言剑.采区三维地震勘探的实践与认识[J].煤矿开采,2007,12(2) :17-18. Wang Y J. The practice and understanding of 3-D seismic exploration in mining area[J]. coal mining, 2007,12(2) : 17-18.
[4] 杨双安,张胤彬,许鸿雁.煤田三维地震勘探技术的应用及发展前景[J].物探与化探,2004,28(6) :500-503. Yang S A, Zhang Y B, Xu H Y. The application and development trend of the three dimensional seismic exploration technology in the coalfield [J]. Geophysical & Geochemical Exploration,2004,28(6) :500-503.
[5] 左德堃.国外煤田矿井物探技术的发展[J].煤炭科学技术,1978. 9,60-63. Zuo D K. Development of Coalfield mine geophysical technology abroad[J]. Coal Science and Technology, 1978, 9: 60-63.
[6] 左德堃.国外煤田矿井物探现状[J].矿业安全与环保,1977/01,31-53. Zuo D K. The status quo of Coalfield mine geophysical abroad [J]. Mining Safety and Environmental Protection, 1977,31-53.
[7] 吴钦宝.中国东部煤矿深部开采中的地质勘探技术[J].地球物理学进展,2005,20(2) :370-373. Wu Q B. Geological exploration techniques used in deep coalmining in China [J]. Progress in Geophysics,2005,20(2) : 370-373.
[8] 于景邮.煤矿深部开采中的地球物理技术现状及展望[J].地球物理学进展,2007,22(2) :586-592. Yu J C. Development and prospectof geophysical technology in deep mining [J]. Progress in Geophysics, 22007,22(2) : 586-592.
[9] 王齐仁.地下地质灾害地球物理探测研究进展[J].地球物理学进展,2004,19(3) :497-503. Wang Q R. Progress in the geophysical exploration research on underground geological hazards [J]. Progress in Geophysics,2004,19(3) :497-503.
[10] 程建远.中国煤矿采区地震勘探技术的回顾与展望[J].煤田地质与勘探,2004,32(Sup.):30-36. Cheng J Y. Seismic exploration techniques Retrospect and Prospect in China coal mining area [J]. Coal Geology and Explorations,2004,32(Sup.):30-36.
[11] 朱德兵.工程地球物理方法技术研究现状综述[J].地球物理学进展,2002,17(1) :41-45. Zhu D B. Summarization of engineering geophysics in major of geophysical prospecting and information technique [J]. Progress in Geophysics,2002 ,17(1) :41-45.
[12] 刘树才,岳建华,刘志新.煤矿水文物探技术与应用[M].徐州:中国矿业大学出版社,2005. Liu S C, Yue J H, Liu Z X. Hydrogeophysical exploration technique and application in coal seams [M]. Xuzhou: China University of Mining and Technology Press. 2005.
[13] 南生辉.钻孔雷达定向测量技术与应用[J].煤田地质与勘探,1998,11(1) :56-58. Nan S H. Technique and application of directional prospecting of borehole radar system [J]. Coal and Geology &. Exploration. 1998,11(1) :56-58.
[14] 刘盛东,程学丰.采矿中的声学技术[C].第六届全国采矿学术会议论文集,107-110. Liu S D, Cheng X F. Acoustics technical for mining[C]. 6th National Mining Academic Meeting Thesis Compilation,107-110.
[15] 刘盛东,郭立全.MSP技术及其煤矿巷道小构造探测中的应用[J].安徽理工大学学报(自然科学版),2007,27(sup.):22-25. Liu S D, Guo L Q. MSP Technology and the application of detecting small geological structure in coal mine laneway [J]. Journal of Anhui University of Science and Technology (Natural Science): 2007 ,27(sup.) : 22-25.
[16] 李海山,潘冬明,刘建华.高分辨率地震技术在矿井下防治水的应用[J].中国矿业大学学报,1994,23(3) :84-89. Li H S, Pan D M, Liu J H. Applications of high-resolution seismic technology under the mines about the control of water [J]. China University of Mining Journal, 1994, 23(3) : 84-89.
[17] 缪奋.国外煤矿矿井地质探测技术[J].煤炭科学技术,1991,54-57. Miao F. Foreign coal mine geological exploration technology [J]. Coal Science and Technology,1991,54-57.
[18] 刘士斌.国外矿井地质工作及其探测技术[J].同煤科技,1995,57-59. Liu S B. The work of foreign mining geology and it is exploration techniques [J]. The Tong Coal Technology,1995/01,57-59.
[19] 程建远,张广忠,李林元,等.老窑采空区地震探测新技术及其应用前景[J].中国煤田地质,2003,(5) :50-52. Cheng J Y, Zhang G Z, Li L Y, et al. A new seismic technique to explore goafs and its application prospects [J]. Coal Geology of China,2003,(5) :50-52.
[20] 程建远,孙洪星,赵庆彪,等.老窑采空区的探测技术与实例研究[J].煤炭学报,2008,33(3) :251-255. Cheng J Y, Sun H X, Zhao Q B, et al. The detection technology of excavated region in coal mine and case study [J]. Journal of China Coal Society,2008,33(3) :251-255.
[21] Wright C, Walls E J, Carneiro D D J. The seismic velocity distribution in the vicinity of a mine tunnel at Thabaximbi, South Africa[J].J. Applied Geophys. ,2000,44:369-382.
[22] Stewart A G, lain M M, Cvetan S. In-mine seismic delineation of mineration and rock structure[J]. Geophysics,2000,65(6) :1908-1919.
[23] 赵 镨.用地震方法探测煤矿地质异常体[J].地球学报,1999,20(sup.):628-631. Zhao P. Survey of the unusual phenomenon of geology in coal mine by using seismic method [J]. Acta Geoscientia Sinica, 1999,20(Sup.):628-631.
[24] 杨霖.绕射波在掘进巷道中超前探测小构造的应用[J].科技情报开发与经济,2006,16(10) :268-269. Yang L. The application of diffracted wave in the advance detection of the small structure in the tunneling [J]. Sci-Tech Information Development & Economy, 2006,16(10) :268-269.
[25] 史柏生.TSP203地质超前预报系统简介及其应用[J].铁道工程学报,2004,4:27-30. Shi B S. TSP203 Geologic Advance Prediction System and Its Application [J]. J. Railway Engineering Society, 2004,4:27-30.
[26] 成 谷,马在田,张宝金,等.地震层析成像中存在的主要问题及应对策略[J].地球物理学进展,2003,18(3) :512-518. Cheng G, Ma Z T, Zhang B J, et al. Primary problems and according strategies in seismic tomography [J]. Progress in Geophys. , 2003,18(3) :512-518.
[27] 裴正林.井间地震层析成像的现状与进展[J].地球物理学进展,2001,16(3) :91-97. Pei Z L. Status and progress on cross-hole seismic tomography [J]. Progress in Geophys. , 2001, 16 ( 3) : 91-97.
[28] 韩德品,张连福,龚世龙.采煤工作面内陷落柱超前探测技术与应用[J].煤炭学报,2006,25(增):97-100. Han D P, Zhang L F, Gong S L. The leading survey technology and its applications of collapse-columns in coal faces [J]. J. China Coal Society,2006,25(增):97-100.
[29] 田 劼,韩光,吴钰晶,等.矿井独头巷道掘进超前探测技术现状[J].煤炭科学技术,2006,8:17-20. Tian J, Han G, Wu Y J, et al. Status of pilot probing technology for blind heading [J]. Coal Science and Technology, 2006,8:17-20.
[30] 刘青雯.井下电法超前探测方法及其应用[J].煤田地质与勘探,2001,5:60-62. Liu Q W. Underground electrical lead survey method and its application [J]. Coal Geology & Exploration, 2001, 5 : 60-62.
[31] 程久龙,王玉和,于师建,等.巷道掘进中电阻率法超前探测原理与应用[J].煤田地质与勘探,2000,28(4) :60-62. Cheng J L, Wang Y H,Yu S J, et al. The principle and application of advance surveying in roadway excavation by resistivity method[J]. Coal Geology and Explorations, 2000,28(4) :60-62.
[32] 韩德品,石亚丁.采煤工作面内和顶底板电穿透方法数值模拟[J].煤炭学报,2000,25(Sup.):30-33. Han D P, Shi Y D. The numerical simulation of the electrical penetration methods at coal mining working face in roof or floor and in coal seam [J]. J. China Coal Society. ,2000,25(Sup.):30-33.
[33] 李振峰,冯磊,陈天振,等.音频电透视仪在铁矿巷道中的试验效果[J].地球物理学进展,2005,20(2) :446-449. Li Z F,Feng L, Chen T Z, et al. Practical effect of audio-frequency electric perspective in an iron ore laneway [J]. Progress in Geophys. , 2005 ,20(2) :446-449.
[34] 李冬林,姜振泉,杨栋梁.煤层底板音频电透视探测成果反映的底板阻水条件[J].地球科学与环境学报,2005,27(3) :68-71. Li D L,Jiang Z Q,Yang D L. Preventing water condition of coal floor reflected by audio-frequency electrical penetration [J]. Journal of Earth Science and Enivronmental, 2005,27(3) :68-71.
[35] 岳建华,刘树才,刘志新,等.巷道直流电测深在探测陷落柱中的应用[J].中国矿业大学学报,2003,32(5) :479-481. Yue J H, Liu S C, Liu Z X,et al. Application of roadway DC electrical sounding in detecting collapse-columns[J]. Journal of China University of Mining & Technology, 2003, 32 (5) :479-481.
[36] 于景村,李志聃.高分辨率三极电测深法探测煤矿突水构造[J].煤田地质与勘探,1997,25:38-39. Yu J C, Li Z D. The exploration of water gushing structure of coal mine with the sounding method of high resolution trielectrodes [J]. Coal Geology and Explorations, 1997,25:38-39.
[37] 岳建华,刘志新.井-地三维电阻率成像技术[J].地球物理学进展,2005,20(2) :407-411. Yue J H, Liu Z X. Three dimension resistivity tomography of mine-ground [J]. Progress in Geophys. , 2005 , 20 (2) : 407-411.
[38] 岳建华,李志聃.煤矿井下直流层测深法原理与应用[J].煤炭学报,1994,19(4) :422-429. Yue J H, Li Z D. DC Layer Sounding in Coal Seams [J]. J. China Coal Society. ,1994,19(4) :422-429.
[39] 许新刚,刘志新,王大庆.矿井电阻率成像技术的现状与展望[J].地球物理学进展,2004,19(1) :52-55. Xu X G, Liu Z X, Wang D Q. Development and prospect of mine resistivity tomography [J]. Progress in Geophys. , 2004,19(1) :52-55.
[40] 张乃宏,许进鹏.井下电法探测含导水构造在任楼煤矿的应用[J].煤田地质与勘探,2003,31(6) :56-57. Zhang N H, Li D P. Application of mine electric method exploring the break-out-water collappse column in Renlou mine [J]. Coal Geology and Explorations, 2003,31(6) :56-57.
[41] 刘志新,于景村,郭栋.矿井瞬变电磁法在水文钻孔探测中的应用[J].物探与化探,2006,30(1) :59-61. Liu Z X, Yu J C, Guo D. The application of the mining transient electromagnetic method to the exploration of hydrological borehole [J]. Geophysical and Geochemical Exploration,2006,30(1) :59-61.
[42] 薛国强,李 貅,底青云.瞬变电磁法理论与应用研究进展[J].地球物理学进展,2007,22(4) :1195-1200. Xue G Q, Li X, Di Q Y. The progress of TEM in theory and application [J]. Progress in Geophys. , 2007, 22(4) :1195-1200.
[43] 于景邨.深部采场突水构造矿井瞬变电磁法探查理论及应用[J].煤炭学报,2007,32(8) :818-820. Yu J C. Theoretical analysis of mine transient electromagnetic method and its application in detecting water burst structures in deep coal stope [J]. J. China Coal Society, 2007,32(8) :818-820.
[44] Lee T. Estimation of depth to conductors by the use of electromagnetic transients [J]. Geophysics,1977,65:61-75.
[45] 白登海,等.地下全空间瞬变电磁法及在煤矿水害预防中的应用[C].第六届中国国际地球电磁学术讨论会论文集,2003, 52-55. Bai D H, et al,. Whole-space transient electromagnetic method and application of water-disaster prevention in coal mines [C]. 6th International Gen-Electromagnetic Workshop Thesis Compilation, 2003,52-55.
[46] 李兰亭,侯吉祥.无线电波坑透探测在大同煤田的应用研究[J].煤田地质与勘探,2001,29(5) :52-55. Li L T, Hou J X. Research on the application of wireless wave perspective tunnel in Datong coalfield [J]. Coal Geology and Explorations,2001,29(5) :52-55.
[47] 王 琦.层析成像在巷道无线电波透视法中的应用[J].中国矿业大学学报,2003,32(5) :579-582. Wang Q. Application of tomography in radio wave tunnels perspective [J]. J. China University of Mining & Technology, 2003 ,32(5) : 579-582.
[48] 汤友谊.无线电波坑道透视构造煤的研究[J].煤炭学报,2002,27(3) :254-258. Tang Y Y. Study of tectonic coal by radio-ware pit perspective [J]. J. China Coal Society, 2002 , 27 (3) : 254-258.
[49] 张戬.坑道无线电波透视法在探测井下陷落柱中的应用[J].科技情报开发与经济,2006,16(19) :166-168. Zhang J. The application of the underground radio wave penetration method in detecting the silo collapsing columns [J]. Sci-Tech Information Development & Economy, 2006,16(19) :166-168.
[50] 赵益晨.无线电坑道透视技术在高阳矿的应用效果[J].煤矿现代化,2005,3:34-35. Zhao Y C. Application of the radio-wave gallery perspective technology in Gaoyang coalfield [J]. Coal Mine Modernization, 2005 ,3:34-35.