«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.issn.1673-193x.2014.04.004]
点击复制

辽宁省煤矿瓦斯赋存构造控制规律与瓦斯分带划分

分享到：

《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:: 10
期数:: 2014年4期

页码:: 24-30

栏目:: 学术论著

出版日期:: 2014-04-28

文章信息/Info

Title:: Tectoniclevelcontrol rule and zonedividing of coalmine gas occurrence in Liaoning Province

作者:: 贾天让¹; 2; 3; 闫江伟¹; 2; 王蔚¹; 2; 张子敏¹; 2; （1 河南省瓦斯地质与瓦斯治理重点实验室-省部共建国家重点实验室培育基地，河南焦作454003； 2河南理工大学瓦斯地质研究所，河南焦作454003；3大连理工大学土木工程学院，辽宁大连116024）

Author(s):: JIA Tian rang ¹; 2; 3; YAN Jiang wei ¹; 2; WANG Wei ¹; 2; ZHANG Zi min ¹; 2; (1 State Key Laboratory Cultivation Base for Gas Geology and Gas Control, Henan Polytechnic University, Jiaozuo Henan 454003, China; 〖JP〗 2 Institute of Gas Geology, Henan Polytechnic University, Jiaozuo Henan 454003, China； 3School of Civil Engineering, Dalian University of Technology, Dalian Liaoning 116024, China)

关键词:: 瓦斯赋存; 构造控制; 构造演化; 瓦斯地质图; 瓦斯分带

Keywords:: gas occurrence; tectonic control; tectonic evolution; gasgeology map; zonedividing of gas occurrence

分类号:: X936

DOI:: 10.11731/j.issn.1673-193x.2014.04.004

文献标志码:: A

摘要:: 瓦斯赋存规律认识不清，是导致煤矿瓦斯突出灾害频发的根本原因。应用瓦斯赋存地质构造逐级控制理论，结合辽宁省煤矿瓦斯地质图编制资料，分析了全省瓦斯赋存构造控制规律，进行了瓦斯分带划分。研究结果表明：印支运动（主幕），在形成一系列EW向、NE向和NW向断裂褶皱带过程中，煤体破坏，形成构造煤。燕山运动，形成了一系列NNE向、NE向的褶皱和逆冲推覆构造，与EW向构造相叠加，构造应力集中，有利于瓦斯突出；同时，岩浆侵入煤系地层使煤变质程度增高，生烃能力增强。喜马拉雅运动时期，挤压作用逐步被拉张取代，拉张裂隙作用有利于瓦斯部分释放。将辽宁省煤矿瓦斯赋存分布划分4个高突瓦斯带，即阜新-铁岭高突瓦斯带、抚顺-沈北高突瓦斯带、北票-南票高突瓦斯带和红阳-本溪高突瓦斯带。

Abstract:: Unclear understanding of the gas occurrence rule is a root cause of frequent gas outburst disasters. Based on theory of gas occurrence tectonic level control, and combining with datum about gasgeology map of Liaoning Province, the tectoniclevelcontrol rule and zonedividing of gas occurrence were discussed. The results showed that tectonic coal formed during the forming of EW, NE and NW faults and folds which were controlled by Indosinian movement. NNE, NE folds and overthrust formed during Yanshan movement, through compounding with the EW geological structure, it caused the tectonic concentrated stress which is prone to coal and gas outburst. At the same time, Yanshanian magmatism increased coal metamorphism and the hydrocarbon productivity of coal was enhanced. During Himalayan movement, tectonic compression was replaced gradually by tectonic extension, which was beneficial to gas release. Coalmine gas occurrence and gas distribution in Liaoning Province were divided into four high and outburst zones, such as FuxinTieling, BeipiaoNanpiao and Hong Yang  Benxi.

参考文献/References:

[1］国家安全生产监督管理总局.事故查询系统［DB/OL］. http://media.chinasafety.gov.cn:8090/iSystem/shigumain.jsp 20131118.
[2］张子敏.瓦斯地质学［M］.徐州：中国矿业大学出版社,2009.
[3］张子敏, 吴吟. 中国煤矿瓦斯赋存构造逐级控制规律与分区划分［J］. 地学前缘,2013,20（2）:237245 ZHANG Zimin，WU Yin. Tectoniclevelcontrol rule and areadividing of coalmine gas occurrence in China ［J］. Earth Science Forntiers,2013,20（2）:237245.
[4］徐凤银,朱兴珊,王桂梁,等.芙蓉煤田古构造应力场及其对煤与瓦斯突出控制的定量化研究［J］. 地质科学,1995,30(1):7194 XU Fengyin, ZHU Xingshan,WANG Guiliang, et al. Quantitative research on the paleotectonic stress field and its control to coal and gas outburst［J］. Scientia Geologica Sinica,1995,30(1):7194.
[5］朱兴珊.论地质构造及其演化对煤和瓦斯突出的控制以南桐煤田为例［J］.中国地质灾害与防治学报，1997，8(3): 1320 ZHU Xingshan.Control of gological structure and its evolution on coal and gas outburst: Nantong mining area taken as an example［J］.The Chinese Journal of Geological Hazard and Control, 1997，8(3): 1320.
[6］韩军,张宏伟.构造演化对煤与瓦斯突出的控制作用［J］.煤炭学报,2010,35(7):11251130 HAN Jun，ZHANG Hongwei.The controlling of tectonic evolution to coal and gas outburst［J］.Journal of China Coal Society，2010，35(7): 11251130.
[7］舒龙勇,程远平,王亮,等.地质因素对煤层瓦斯赋存影响的研究［J］.中国安全科学学报,2013,40(3):9699 SHU Longyong,CHENG Yuanping,WANG Liang, et al.Research on influence of geological factors on gas storage in coal seam ［J］.Journal of China Safety Science,2013,40(3):9699.
[8］王桂梁,徐凤银.芙蓉矿区层滑构造对瓦斯形成富集的制约作用［J］.中国矿业大学学报,1999,28(1):913 WANG Guiliang,XU Fengyin.Restrictions of layer slip structure on formation and concentration of gas in Furong mining area ［J］.Journal of China University of Mining&Technology,1999,28(1):913.
[9］徐学锋.逆断层区构造煤形成机制及分布规律的数值模拟［J］.煤田地质与勘探,2010,40(2):68 XU Xuefeng.Numerical simulation of formation mechanism and distribution law of structural coal in thrust faults ［J］.Coal Geology & Exploration, 2010, 40(2):68.
[10］魏国营,姚念岗.断层带煤体瓦斯地质特征与瓦斯突出的关联［J］.辽宁工程技术大学学报(自然科学版),2012,31(5):604608 WEI Guoying,YAO Niangang.Characteristic of gasgeology at coal seam fault and its association with coalgas outburst［J］.Journal of Liaoning Techical University(Natural Science),2012,31(5):604608.
[11］袁崇孚.构造煤和煤与瓦斯突出［J］.煤炭科学技术,1986,(1):3233 YUAN Chongfu. Deformed coal and coalgas outburst［J］.Coal Science and Technology, 1986,(1):3233.
[12］张玉贵,张子敏,曹运兴.构造煤结构与瓦斯突出［J］.煤炭学报，2007,32(3):281285 ZHANG Yugui, ZHANG Zimin, CAO Yunxing. Deformedcoal structure and control to coalgas outburst［J］. Journal of China Coal Society, 2007,32(3):281285.
[13］赵文峰，熊建龙，张军，等. 构造煤分布规律及对煤与瓦斯突出的影响［J］.煤炭科学技术,2013,41(3): 5255 ZHAO Wenfeng, XIONG Jianlong, ZHANG Jun, et al. Structure coal distribution law and affected to coal and gas outburst in Sichuan coal mining area［J］. Coal Science and Technology, 2013,41(3): 5255.
[14］石庆礼，杨胜强.数量化理论Ⅲ及其在煤与瓦斯突出危险性评估中的应用［J］. 中国安全生产科学技术,2013,9(6):6974 SHI Qingli, YANG Shengqiang. Quantification theory III and its application in the evaluation of coal and gas outburst［J］. Journal of Safety Science and Technology, 2013,9(6):6974.
[15］韩军，张宏伟，朱志敏，等.阜新盆地构造应力场演化对煤与瓦斯突出的控制［J］.煤炭学报，2007，32(9): 934938 HAN Jun，ZHANG Hongwei，ZHU Zhimin, et al.Controlling of tectonic stress field evolution for coal and gas outburst in Fuxin Basin［J］.Journal of China Coal Society，2007，32(9): 934938.
[16］安鸿涛；孙四清；王永成等.大兴井田构造演化及瓦斯地质特征［J］.煤矿安全,2009,(5):9193.
[17］袁东升，王栋. 台吉竖井瓦斯突出控制因素分析及突出区预测［J］. 河南理工大学学报(自然科学版), 2011,30(1):610,14 YUAN Dongsheng，WANG Dong. Analysis of control factors about gas outburst and regional prediction in Taiji mining［J］. Journal of Henan Polytechnic University (Natural Science), 2011,30(1):610,14 .
[18］刘欣. 辽宁北票煤田三宝深部煤层气资源特征［J］.辽宁地质，2000,17(3):238240 LIU Xin. Charcteristics of deep coalbed gas resources at sanbao of beipiao coalfield, Liaoning province ［J］. Liaoning Geology,2000,17(3):238240.
[19］河南理工大学.中国煤矿瓦斯地质图编制［R］.焦作,2011.
[20］辽宁省地质矿产局.辽宁省区域地质志［M］.北京：地质出版社，1989.〖FL)〗〖HJ〗〖HT〗〖ST〗〖WT〗

相似文献/References:

[1]李辉,魏国营,牛浩.断层与瓦斯赋存分布规律的关系研究[J].中国安全生产科学技术,2014,10(10):131.[doi:10.11731/j.issn.1673-193x.2014.10.022]
　LI Hui,WEI Guo-ying,NIU Hao.Study on relationship between fault and distribution law of gas occurrence[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2014,10(4):131.[doi:10.11731/j.issn.1673-193x.2014.10.022]
[2]徐刚,王云龙,张天军,等.煤油气共生矿井瓦斯含量主控因素分析及工作面瓦斯治理[J].中国安全生产科学技术,2020,16(1):73.[doi:10.11731/j.issn.1673-193x.2020.01.012]
　XU Gang,WANG Yunlong,ZHANG Tianjun,et al.Analysis on main controlling factor of gas content in coaloilgas coexisting mine and gas control in working face[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2020,16(4):73.[doi:10.11731/j.issn.1673-193x.2020.01.012]
[3]赵利军,曹恒,朱马别克·达吾力.复合隔水条件下煤层群涌水控制因素及对瓦斯赋存的影响[J].中国安全生产科学技术,2020,16(7):55.[doi:10.11731/j.issn.1673-193x.2020.07.009]
　ZHAO Lijun,CAO Heng,DAURI Jumabek.Controlling factors of water inflow in coal seam group under composite water-resisting conditions and their influence on gas occurrence[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2020,16(4):55.[doi:10.11731/j.issn.1673-193x.2020.07.009]
[4]贾天让,王蔚,张子敏.云南省煤矿瓦斯赋存构造控制规律与瓦斯分带划分[J].中国安全生产科学技术,2014,10(9):42.[doi:10.11731/j.issn.1673-193x.2014.09.007]
　JIA Tian-rang,WANG Wei,ZHANG Zi-min.Tectonic control rule and zoning division of coalmine gas occurrence in Yunnan province[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2014,10(4):42.[doi:10.11731/j.issn.1673-193x.2014.09.007]

备注/Memo

备注/Memo:: 国家“十二五”重大专项（2011ZX05040-005）；国家自然科学基金项目（41102094、51234005）;国家青年科学基金项目（51004044）

更新日期/Last Update: 2014-04-28

《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

文章信息/Info

参考文献/References:

相似文献/References:

备注/Memo

常用功能

导航/Navigate

工具/Tools

统计/Statistics