元坝地区须二段低电阻率气层成因与测井评价方法

张晋言, 李淑荣, 李绍霞, 陈芳, 李继亭

张晋言, 李淑荣, 李绍霞, 陈芳, 李继亭. 元坝地区须二段低电阻率气层成因与测井评价方法[J]. 石油钻探技术, 2017, 45(1): 112-119. DOI: 10.11911/syztjs.201701019
引用本文: 张晋言, 李淑荣, 李绍霞, 陈芳, 李继亭. 元坝地区须二段低电阻率气层成因与测井评价方法[J]. 石油钻探技术, 2017, 45(1): 112-119. DOI: 10.11911/syztjs.201701019
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ZHANG Jinyan, LI Shurong, LI Shaoxia, CHEN Fang, LI Jiting. The Origin of Tx2 Low Resistivity Gas Reservoirs in the Yuanba Area and Their Logging Evaluation Method[J]. Petroleum Drilling Techniques, 2017, 45(1): 112-119. DOI: 10.11911/syztjs.201701019
Citation: ZHANG Jinyan, LI Shurong, LI Shaoxia, CHEN Fang, LI Jiting. The Origin of Tx2 Low Resistivity Gas Reservoirs in the Yuanba Area and Their Logging Evaluation Method[J]. Petroleum Drilling Techniques, 2017, 45(1): 112-119. DOI: 10.11911/syztjs.201701019
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元坝地区须二段低电阻率气层成因与测井评价方法

  • 中石化胜利石油工程有限公司测井公司, 山东东营 257096

详细信息
    作者简介:

    张晋言(1965-),男,山东嘉祥人,1986年毕业于华东石油学院矿场地球物理专业,教授级高级工程师,测井公司首席专家,主要从事测井评价技术研究及管理工作。

  • 中图分类号: P631.8+11

The Origin of Tx2 Low Resistivity Gas Reservoirs in the Yuanba Area and Their Logging Evaluation Method

  • Well Logging Company, Sinopec Shengli Oilfield Service Corporation, Dongying, Shandong, 257096, China

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    摘要
  • 摘要: 针对元坝地区须二段储层气层判识难度大、传统测井评价方法解释符合率较低的问题,开展了低电阻率气层成因分析及测井评价方法研究。在深入分析须二下亚段沉积微相、储层特征和测录井、测试及试验分析资料的基础上,认为储层矿物组分、孔隙结构、岩石粒径和胶结类型等是影响气层电阻率高低的主要因素,石英含量与测井电阻率呈正相关关系;建立了储层内岩性细分及识别有效储层的测井模式,综合岩性、电阻率和含水饱和度等参数,形成了不同岩性气层的评价标准和低电阻率气层的测井评价方法。该评价方法在元坝地区多口探井陆相致密砂岩气层评价中进行了应用,提升了致密砂岩气层的测井评价成功率,使元坝地区陆相致密砂岩气藏勘探取得了突破性进展。研究与应用表明,利用建立的低电阻率气层测井评价方法可以解决低电阻率气层的漏层和错判的问题,提高解释的成功率。
    Abstract: Due to the fact that gas reservoir identification is difficult in the Tx2 formation in the Yuanba Area,and the interpretation coincidence rate is lower by conventional logging evaluation methods,the origin of low-resistivity gas reservoirs and its logging evaluation methods have been studied.On the basis of analysis of sedimentary microfacies,reservoir characteristics,the data of well logging,mud logging,testing and experiment in Tx2x gas reservoirs,a conclusion was drawn that the main factors influencing the resistivity value in gas reservoirs are reservoir mineral composition,pore structure,grain size and cementation type,and quartz content had a positive correlation with logging resistivity. The logging mode for lithology subdivision and identification in reservoir was established,and determined the comprehensive lithology, resistivity and water saturation,etc.,so it was possible to form the evaluation criteria for gas reservoir with different lithology and logging evaluation method for gas reservoir with low resistivity. This method has been applied in multiple exploration wells in Yuanba Area to evaluate continental tight sandstone gas reservoirs,and as a result,the success rate of logging evaluation was improved significantly,and a breakthrough was made in the exploration of continental tight sandstone gas reservoir in the Yuanba Area. Research and application showed that the success rate of logging evaluation on tight sandstone gas reservoirs could be increased by establishing the logging evaluation method for low resistivity gas reservoirs,which thus could solve the problems of overlooking low resistivity gas reservoirs and accompanying errors in judgment.
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  • [1] 刘吉余,马志欣,孙淑艳.致密含气砂岩研究现状及发展展望[J].天然气地球科学,2008,19(3):316-319. LIU Jiyu,MA Zhixin,SUN Shuyan.Research status and development prospect of tight gas bearing sandstone[J].Natural Gas Geoscience,2008,19(3):316-319.
    [2] 唐海发,彭世宓,赵彦超,等.致密砂岩储层物性的主控因素分析[J].西安石油大学学报(自然科学版),2007,22(1):59-63. TANG Haifa,PENG Shimi,ZHAO Yanchao,et al.Analysis of main control factors of the physical property of tight sandstone reservoir[J].Journal of Xi’an Shiyou University(Natural Science Edition),2007,22(1):59-63.
    [3] 葛祥,张筠,吴见萌.川西须家河组致密碎屑岩裂缝与储层评价[J].测井技术,2007,31(3):211-215. GE Xiang,ZHANG Yun,WU Jianmeng.Fracture and reservoir evaluation for tight clastic rock of Xujiahe Formation in West Sichuan[J].Well Logging Technology,2007,31(3):211-215.
    [4] 张晋言,李绍霞,谢云.胜利油气区中深层天然气测井评价技术及应用[C]//李保同.中石化天然气测井与测试技术论文集.北京:中国石化出版社,2006:1-11. ZHANG Jinyan,LI Shaoxia,XIE Yun.Deep natural gas well logging evaluation technology and application in Shengli oil and gas area[C]//LI Baotong.Proceedings of logging and testing technology of Sinopec natural gas.Beijing:China Petrochemical Press,2006:1-11.
    [5] 陈必孝,徐炳高.超致密砂岩储层裂缝与含气性识别[J].测井技术,2003,27(2):136-139. CHEN Bixiao,XU Binggao.Identification of fracture and gas-bearing bed in hypercompact sandstone reservoir[J].Well Logging Technology,2003,27(2):136-139.
    [6] 赖锦,王贵文,王书南,等.川中蓬莱地区须二段和须四段储层孔隙结构特征及影响因素[J].中国地质,2013,40(3):927-938. LAI Jin,WANG Guiwen,WANG Shunan,et al.Pore structure characteristics and controlling factors of 2nd and 4th member reservoirs in Upper Triassic Xujiahe Formation of Penglai Area,central Sichuan Basin[J].Geology in China,2013,40(3):927-938.
    [7] 惠伟.四川盆地致密砂岩储层测井评价方法[J].石油地质与工程,2015,29(2):80-83. HUI Wei.Logging evaluation method of tight sandstone reservoir in Sichuan Basin[J].Petroleum Geology and Engineering,2015,29(2):80-83.
    [8] 程立雪,王威,岳全玲,等.川东北地区须二段石英砂岩储层特征差异性[J].成都理工大学学报(自然科学版),2016,43(2):207-215. CHENG Lixue,WANG Wei,YUE Quanling,et al.Differences of quartz sandstone reservoir characteristics for the Member 2 of Xujiahe Formation in Northeast Sichuan Basin,China[J].Journal of Chengdu University of Technology(Science Technology Edition),2016,43(2):207-215.
    [9] 姚勇,谢润成,徐浩,等.元坝须二段致密砂岩储层特征及影响因素[J].石油地质与工程,2015,29(3):31-34. YAO Yong,XIE Runcheng,XU Hao,et al.Characteristics and influencing factors of tight sandstone reservoirs for the Member 2 of Xujiahe Formation[J].Petroleum Geology and Engineering,2015,29(3):31-34.
    [10] 陈必孝,徐炳高.川西致密碎屑岩测井评价技术综合研究[J].石油天然气学报,2009,31(6):108-114. CHEN Bixiao,XU Binggao.Comprehensive study on logging evaluation technology of compact clastic rocks in West Sichuan[J].Journal of Oil and Gas Technology,2009,31(6):108-114.
    [11] 张龙海,周灿灿,刘国强,等.不同类型低孔低渗储集层的成因、物性差异及测井评价对策[J].石油勘探与开发,2007,34(6):702-710. ZHANG Longhai,ZHOU Cancan,LIU Guoqiang,et al.Origin and property differences of various types of low-porosity and low-permeability reservoirs and well logging evaluation strategies[J].Petroleum Exploration and Development,2007,34(6):702-710.
    [12] 凡睿,周林,吴俊,等.川东北地区须家河组致密砂岩储层流体识别方法研究[J].油气地质与采收率,2015,22(3):67-71. FAN Rui,ZHOU Lin,WU Jun,et al.Research on tight sandstone reservoir fluids identification in Xujiahe Formation,Northeastern Sichuan Basin[J].Petroleum Geology and Recovery Efficiency,2015,22(3):67-71.
    [13] 李佳阳,夏宁,秦启荣.成像测井评价致密碎屑岩储层的裂缝与含气性[J].测井技术,2007,31(1):17-20. LI Jiayang,XIA Ning,QIN Qirong.Fracture and gas-bearing evaluation of tight clastic reservoir with image logging[J].Well Logging Technology,2007,31(1):17-20.
    [14] 李幸运,郭建新,张清秀,等.气藏储集层物性参数下限确定方法研究[J].天然气勘探与开发,2008,31(3):33-38. LI Xingyun,GUO Jianxin,ZHANG Qingxiu,et al.Determination method for the lower limit of physical-property parameters in gas reservoirs[J].Natural Gas Exploration and Development,2008,31(3):33-38.
    [15] 王朋岩,刘凤轩,马锋,等.致密砂岩气藏储层物性上限界定与分布特征[J].石油与天然气地质,2014,35(2):238-243. WANG Pengyan,LIU Fengxuan,MA Feng,et al.Upper limit and distribution of physical property of tight gas sandstones[J].Oil Gas Geology,2014,35(2):238-243.
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出版历程
  • 收稿日期:  2016-09-04
  • 修回日期:  2016-12-26
  • 刊出日期:  1899-12-31

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