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        1. [1]张永军,顾定娜,马肃滨,等.阵列声波测井资料在吐哈油田致密砂岩气层识别中的应用[J].测井技术,2012,36(02):175-178.
           ZHANG Yongjun,GU Dingna,MA Subin,et al.The Application of Array Acoustic Wave Data to Tight Sandstone Gas Reservoir in Tuha Oilfield[J].WELL LOGGING TECHNOLOGY,2012,36(02):175-178.
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          阵列声波测井资料在吐哈油田致密砂岩气层识别中的应用()
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          《测井技术》[ISSN:1004-1338/CN:61-1223/TE]

          卷:
          第36卷
          期数:
          2012年02期
          页码:
          175-178
          栏目:
          处理解释
          出版日期:
          2012-04-30

          文章信息/Info

          Title:
          The Application of Array Acoustic Wave Data to Tight Sandstone Gas Reservoir in Tuha Oilfield
          作者:
          张永军1顾定娜1马肃滨1陈向阳1陈光辉1万永清2
          1.中国石油集团测井有限公司吐哈事业部, 新疆 哈密 838202; 2.吐哈油田公司勘探开发研究院, 新疆 哈密 838202
          Author(s):
          ZHANG Yongjun1 GU Dingna1 MA Subin1 CHEN Xiangyang1 CHEN Guanghui1 WAN Yongqing2
          1. Tuha Division, China Petroleum Logging Co. LTD., Shanshan, Xinjiang 838202, China; 2. Exploration & Development Research Institute, Tuha Oilfield Company, Shanshan, Xinjiang 838202, China
          关键词:
          阵列声波测井 致密砂岩 泊松比 体积?#39038;?#31995;数 气层识别
          Keywords:
          array acoustic wave logging tight sandstone Poisson’s ratio bulk compressibility coefficient gas reservoir identification
          分类号:
          P63184
          文献标志码:
          A
          摘要:
          吐哈盆地致密砂岩储层具有孔隙度低、渗透性差、孔隙结构复杂等特点,利用常规测井资料?#23721;?#23545;储层含气性进行有效评价。以研究区致密砂岩声学特征实验为基础,分析岩样在饱含气状态、饱和水状态下纵波速度和横波速度等参数的变化规律,实验为利用阵列声波测井资料所提取纵、横波时差?#32479;?#35268;测井资料计算地层的泊松比、体积?#39038;?#31995;数等参数进行气层识别提供了理论基础。通过储层岩心声学物理试验研究证明,地层在高含气饱和度情况下体积?#39038;?#31995;数和泊松比?#38498;?#27668;饱和度变化较敏感;根据阵列声波测井资料计算得到的泊松比曲线和体积?#39038;?#31995;数曲线交会可以直观识别气层。给出的解释实例证实了在吐哈盆地致密砂岩储层利用泊松比与体积?#39038;?#31995;数交会法识别气层的实用性。
          Abstract:
          Low porosity, poor permeability and complicate pore structure are the most obvious characteristics of Tuha basin tight sandstone reservoir, so it is difficult to make an effective reservoir evaluation with conventional log data. Based on the acoustic characteristics experiments of the tight sandstone, analysed are the change rules of Pwave (compressional wave) and Swave (shear wave) and other parameters of core samples under the conditions of saturated water and saturated gas. DTS and DTC are acquired from array acoustic log data; Bulk density is obtained from density log data. And the DTS, DTC and bulk density are used to calculate the Poisson’s ratio and bulk compressibility coefficient which are effective parameters in gas reservoir recognition. The core acoustic physics experiments prove that the Poisson’s ratio and bulk compressibility coefficient are sensitive to changes of gasbearing saturation under the condition of higher gasbearing saturation. The Poinsson’s ratio and bulk compressibility coefficient crossplot may virtually identify the gas reservoir, and is better used in the tight sandstone reservoir in Tuha oilfield.

          参考文献/References:

          [1]王才志,张丽君. 基于地层弹性模量建立含气饱和度模型 [J]. 石油勘探与开发,2007,34(5):589602.
          [2]令狐松,王敬农,王黎,等. 利用?#25216;?#27178;波资料进行疑难气层评价 [J]. 测井技术,2006,30(3):230232.
          [3]王振杰,李潮流,张振波,等. 利用阵列声波测井定量评价低渗透砂岩储层含气性 [J]. 国外测井技术,2010,2:4547.
          [4]马强,陈建清,黄家胜,等. 正交?#25216;?#38453;列声波资料在江苏探区储层评价中的地质应用 [J]. 复杂油气藏,2009,2(4):3236.
          [5]胡红,罗宁,李联新,等. 阵列声波资料在测井解释中的应用 [J]. 岩性油气藏,2008,20(2):97101.

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          备注/Memo

          备注/Memo:
          收稿日期:20110802
          作者简介: 张永军,男,1979年生,工程师,硕士研究生,从事测井资料处理解释及地质综合评价研究工作。
          文章编号:10041338(2012)02017504
          更新日期/Last Update: 2012-04-30
          11选五开奖结果