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Volume 3 Issue 1
Mar.  2015
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SUN Dong-sheng, ZHAO Wei-hua, LI A-wei, et al. 2015: Analysis on method for effective in-situ stress measurement in hot dry rock reservoir. Journal of Groundwater Science and Engineering, 3(1): 9-15.
Citation: SUN Dong-sheng, ZHAO Wei-hua, LI A-wei, et al. 2015: Analysis on method for effective in-situ stress measurement in hot dry rock reservoir. Journal of Groundwater Science and Engineering, 3(1): 9-15.

Analysis on method for effective in-situ stress measurement in hot dry rock reservoir

  • Publish Date: 2015-03-28
  • With the rapid increase of energy demand and the increasingly highlighted environmental problems, clean, safe and widely distributed geothermal resources have become a hot spot for renewable resources development. The state of in-situ stress is a major control parameter for multiple links including well location, fracture inspiration and reservoir assessment, so how to determine the accurate state of in-situ stress in the deep thermal reservoir becomes a core problem drawing widely attention and urgent to be solved. Based on features of hot dry rock reservoir in terms of temperature and pressure and the comparison analysis, this article proposes the method of Anelastic Strain Recovery (ASR) as an effective method for determining the state of in-situ stress in the area with HDR resources distributed and explains the availability of ASR method by application examples.
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  • Matsuki K, Takeuchi K. 1993. Three-dimensional in-situ stress determination by anelastic strain recovery of a rock core. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts, 30(7):1019-1022 .
    ZANG Arno, Stephansson Ove, et al. 2010. Stress field of the earth’s crust. London: Springer, 115-193.
    SUN Deng-sheng. 2014. Experimental study of anelastic strain recovery in-situ stress mea-suiement methods and its application. Beijing: Chinese Academy of Geological Sciences.
    WANG Lian-jie, SUN Dong-sheng, LIN Wei-ren, et al. 2012. Anelastic strain recovery method to determine in-situ stress and application example. Chinese Journal of Geophysics, 55(5):1674-1681.
    SUN Dong-sheng, LIN Wei-ren, CUI Jun-wen, et al. 2014. Three-dimensional in-situ stress deter?mination by anelastic strain recovery and its application at the Wenchuan earthquake fault scientific drilling Hole-1 (WFSD-1). Science China: Earth Sciences, 57(6):1212- 1220.
    Matsuki K. 1991. Three-dimensional in-situ stress measure with anelastic strain recovery of a rock core. Proc 7th ISRM International Con-gress on Rock Mechanics, Aachen, 1:557- 560.
    Voight B. 1968. Determination of the virgin of stress in the vicinity of a borehole from measurements of a partial inelastic strain tensor in drill cores. Rock Mechanics & Engineering Geology, 6(4):201-215.
    WANG Ji-yang, HU Sheng-biao, PANG Zhong-he. 2012. Estimate of geothermal resources potential for hot dry rock in the continental area of China. Science & Technology Review, 30(32):25-31.
    SUN Dong-sheng, LIN Wei-ren, WANG Lian-Jie, et al. 2013. In-situ stress measurement by the anelastic strain recovery method in WFSD-1. Geology in China, 40(3):840-845.
    CHEN Qun-ce, FENG Cheng-jun, MENG Wen, et al. 2012. Analysis of in-situ stress measure-ments at the northeastern section of the Longmenshan fault zone after the Wenchuan earthquake on May 12. Chinese Journal of Geophysics, 55(12):3923-3932.
    WANG Cheng-hu. 2014. Brief review and outlook of main estimate and measurement methods for in-situ stresses in rock mass. Geological Review, 60(5):971-995.
    LIN Wei-ren. 2008. A core-based method to determine three-dimensional in-situ stress in deep drilling wells: anelastic strain recovery technique. Chinese Journal of Rock Me?chanics and Engineering, 27(12):2387- 2394.
    Matsuki K. 2008. Anelastic strain recovery com-pliance of rocks and its application to in-situ stress measurement. International Journal of Rock Mechanics and Mining Sciences, 45(6): 952-965.
    SUN Dong-sheng, WANG Lian-jie, WANG Hong- cai, et al. 2013. Analysis of the Wenchuan Ms8.0 earthquake’s co-seismic stress and displacement change by using the finite element Method. Acta Geologica Sinica, 87(4):1120-1128.
    LIN Wei-ren, Marek Kwasniewski, Imamura, et al. 2006. Determination of three-dimensional in-situ stresses from anelastic strain recovery measurement of cores at great depth. Tec-tonophysics, 426(1/2): 221-238.
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