煤层气储层参数多信息综合定量预测方法
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摘要
提出了以地震属性和钻孔测井参数为基础 ,以数学地质为桥梁 ,实现煤层气储层参数定量预测的科学方法。薄煤层厚与反射波振幅之间为单调增减关系公式 ;孔隙度与地震反射瞬时频率成正比关系 ,可采含气量与地震反射瞬时振幅成反比关系 ,且相关程度高。最后应用该成果对山西沁水煤层气地震勘探工程实际预测 ,对储层厚度、孔隙度、含气量做出定量预测。该成果有利于提高煤矿采煤安全性和降低煤层气开采的风险性 ,同时也将开拓地震勘探技术新的应用领域
A new methodology is presented to predict coalbed gas reservoir parameters at relationship of seismic attribute and geological information.The basic methodology is to build a mathematic model through the regression analysis of the mathematic geology.Two achievements have been acquired. The first is that the equation of thin bed coal seam thickness to the reflecting amplitude; the second is that setting up the regression equation: one is the porosity-to-instantaneous frequency; the other is the gas-product percentage to the reflection amplitude. At the end, application of the research results to the Shanxi Qinshui coalbed gas seismic exploration project shows a satisfaction results and produce great economic interests.The study results are useful for inereasing the mining safety and decreasing the mining risk,as well as developing a new application field.
A new methodology is presented to predict coalbed gas reservoir parameters at relationship of seismic attribute and geological information.The basic methodology is to build a mathematic model through the regression analysis of the mathematic geology.Two achievements have been acquired. The first is that the equation of thin bed coal seam thickness to the reflecting amplitude; the second is that setting up the regression equation: one is the porosity-to-instantaneous frequency; the other is the gas-product percentage to the reflection amplitude. At the end, application of the research results to the Shanxi Qinshui coalbed gas seismic exploration project shows a satisfaction results and produce great economic interests.The study results are useful for inereasing the mining safety and decreasing the mining risk,as well as developing a new application field.
引文
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[3] 韩金炎.数学地质[R].徐州:中国矿业大学院地质系,1985.
[4] 黄盛初,胡予红,刘文革等.中国煤矿区煤层气减排优选项目[A].第三届国际甲烷及氧化亚氮减排大会论文集[C],2003.
[5] 黄智辉,陈曜芩.煤田地球物理测井[M].武汉:武汉地质学院出版社,1986.
[6] PalmerID ,MecalfeRS ,YeeD ,RuriR著.秦 勇,曾勇等编译.煤层甲烷储层评价技术及生产技术[M].徐州:中国矿业大学出版社,1996.
[7] 陆孟基等.地震勘探原理[M].北京:石油工业出版社,1993.
[8] 牟永年.地震资料数字处理方法[M].北京:石油工业出版社,1981.
[9] 姚汉光等.气测井[M].北京:石油大学出版社,1990.
[10] 叶建平,秦 勇,林大扬主编,中国煤层气资源[M].徐州:中国矿业大学出版社,1999.
[11] 许卫,催庆田,颜明友等.煤层甲烷气勘探开发工艺技术进展[M].北京:石油工业出版社,2001.
[12] DresserAtlas(德莱赛-阿特拉斯司公司)著尚作源等译.测井与解释技术[M].北京:石油工业出版社,1991.
[13] BhillK ,HalvatzisGJ.Sandthicknesspredictionfrom3Dseismicdata[J].TheLeadingEDGE ,2001,20(9):950.
[14] 戴金星,戚厚发等.煤成气藏形成条件及资源评价[M].北京:石油工业出版社,2001.
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