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    Volume 30 Issue 4
    Jul.  2005
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    Article Navigation >  Earth Science  > 2005  >  30(4): 467-472
    ZHAO Jun, PENG Wen, LI Jin-fu, WANG Gui-wen, LI Jun, 2005. In-Situ Stress Logging Responding Characteristics of Piedmont Thrust Belt and Its Influence on Hydrocarbon Distribution. Earth Science, 30(4): 467-472.
    Citation: ZHAO Jun, PENG Wen, LI Jin-fu, WANG Gui-wen, LI Jun, 2005. In-Situ Stress Logging Responding Characteristics of Piedmont Thrust Belt and Its Influence on Hydrocarbon Distribution. Earth Science, 30(4): 467-472.
    shu

    In-Situ Stress Logging Responding Characteristics of Piedmont Thrust Belt and Its Influence on Hydrocarbon Distribution

    • 1.

      Faculty of Petroleum Engineering, Southwest Petroleum Institute, Chengdu 610500, China

    • 2.

      South-Western University of Finance and Economics, Chengdu 610072, China

    • 3.

      Tarim Oilfield Company, Korla 841000, China

    • 4.

      Faculty of Earth Sciences, China University of Petroleum, Beijing 102249, China

    • 5.

      Faculty of Resource and Circumstance, Yangtze University, Jingzhou 434102, China

    • Received Date: 2004-12-12
    • Publish Date: 2005-07-25
      Abstract
    • Compressive tectonic stress is extremely strong in the piedmont thrust belt of the median-west of China. The strong tectonic stress not only changes the reservoir properties but also directly controls hydrocarbon accumulation and distribution. The characteristics of shale, particularly shale resistance, can easily reflect the state of terrestrial stress. This characteristic can be used to evaluate the stress quantitatively, which was proved to be reliable by a comparison of the data from an acoustic emission experiment. Based on the in-situ stress analysis of many wells, in-situ stress distribution has been determined. The effect of terrestrial stress on reservoir property was studied and the relation of local terrestrial stress with structural styles was analyzed.Resultsshow that the high-quality reservoir always coincides with relatively low terrestrial stress belts.

       

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