陷落柱的三维地震信息解释
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摘要
针对邱集煤矿在岩巷掘进过程中发生的重大突水事故,结合矿井地质和水文地质信息,利用三维地震数据动态解释技术和地震属性技术,确定了陷落柱的存在及其平面位置、发育高度、空间形态。结果表明,该陷落柱位于出水点东南280 m处,平面长轴长度约为200 m,短轴长度约为150 m,高度为50~80 m,空间形态类似于烟囱体和盐丘体。该结果可为矿井防治水害提供水文地质依据。
Aimed at addressing a major water-inrush-accident occurring in the tunneling process of Qiuji coalmine,this paper describes the determination of the existence,plane position,development height,and space form of the collapse column,combined with the information of mine geology and hydrogeology and based on the dynamic interpretation methods of 3D seismic data and seismic attribute technique. The results show that the collapse column,located about 280 m to the southeast of the water-inrush -point and with an about 200 m major axis and an about 150 m minor axis and a 50~80 m height, has a space shape similar to a sulfur chimney or salt dom.These findings provide an important hydrological basis for preventing and treating the coalmine water disaster.
Aimed at addressing a major water-inrush-accident occurring in the tunneling process of Qiuji coalmine,this paper describes the determination of the existence,plane position,development height,and space form of the collapse column,combined with the information of mine geology and hydrogeology and based on the dynamic interpretation methods of 3D seismic data and seismic attribute technique. The results show that the collapse column,located about 280 m to the southeast of the water-inrush -point and with an about 200 m major axis and an about 150 m minor axis and a 50~80 m height, has a space shape similar to a sulfur chimney or salt dom.These findings provide an important hydrological basis for preventing and treating the coalmine water disaster.
引文
[1]武喜尊.煤矿采区三维地震勘探技术[J].物探与化探, 2004,28(1):19-21.
[2]崔若飞,孙学凯,崔大尉.煤矿三维地震数据动态解释技术[J].煤田地质与勘探,2008,36(6):67-69.
[3]程建远.三维地震资料微机解释性处理技术[M].北京:石油工业出版社,2002.
[4]RIJKS E J H,JAUFFRED J C E M.Attribute extraction:an important application in any 3-D interpretation study[J].The leading Edge,1991,10(9):11-19. MARFURT K J,KIRLIN R L,FARMER S L,et al.3-D seismic attributes using a semblance-based coherency algorithm[J].Geophysics, 1998,63(4):1150-1165.
[6]崔若飞,李晋平,庞留彦,等.地震属性技术在煤田地震勘探中的应用研究[J].中国矿业大学学报,2002,31(3):54-57.
[7]国家煤矿安全监察局.煤矿防治水规定释义[M].徐州:中国矿业大学出版社,2009.
[8]FRED AMINZADEH.烟囱体的地质灾害探测及其它应用[J].国外石油动态,2002(17):1-6.
[9]刘殊,范菊芬,曲国胜,等.气烟囱效应——礁滩相岩性气藏的典型地震响应特征[J].天然气工业,2006,26(11): 52-55.
[10]周晶,张延庆,李建华.边缘检测技术探测盐丘[J].天然气工业,2007(S1):379-380.
[2]崔若飞,孙学凯,崔大尉.煤矿三维地震数据动态解释技术[J].煤田地质与勘探,2008,36(6):67-69.
[3]程建远.三维地震资料微机解释性处理技术[M].北京:石油工业出版社,2002.
[4]RIJKS E J H,JAUFFRED J C E M.Attribute extraction:an important application in any 3-D interpretation study[J].The leading Edge,1991,10(9):11-19. MARFURT K J,KIRLIN R L,FARMER S L,et al.3-D seismic attributes using a semblance-based coherency algorithm[J].Geophysics, 1998,63(4):1150-1165.
[6]崔若飞,李晋平,庞留彦,等.地震属性技术在煤田地震勘探中的应用研究[J].中国矿业大学学报,2002,31(3):54-57.
[7]国家煤矿安全监察局.煤矿防治水规定释义[M].徐州:中国矿业大学出版社,2009.
[8]FRED AMINZADEH.烟囱体的地质灾害探测及其它应用[J].国外石油动态,2002(17):1-6.
[9]刘殊,范菊芬,曲国胜,等.气烟囱效应——礁滩相岩性气藏的典型地震响应特征[J].天然气工业,2006,26(11): 52-55.
[10]周晶,张延庆,李建华.边缘检测技术探测盐丘[J].天然气工业,2007(S1):379-380.
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