Experimental Investigation of Gas Transport in the Shaly Facies of Opalinus Clay

被引:1
|
作者
Villar, Maria Victoria [1 ]
Javier Romero, Francisco [1 ]
Luis Martin, Pedro [1 ]
Gutierrez-Rodrigo, Vanesa [1 ]
Miguel Barcala, Jose [1 ]
机构
[1] CIEMAT, Madrid, Spain
来源
ENERGY GEOTECHNICS, SEG-2018 | 2019年
关键词
D O I
10.1007/978-3-319-99670-7_54
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
An experimental setup was designed to measure gas permeability and gas breakthrough pressures in Opalinus clay samples. The confining pressures applied were higher than the maximum in situ stress, and the tests were performed by slowly increasing the injection pressure whereas backpressure was kept atmospheric and the outflow was measured. The breakthrough pressure perpendicular to bedding was generally higher than 18 MPa, which is consistent with the air entry values deduced from mercury intrusion porosimetry tests for this material, which was between 19 and 36 MPa. In samples with degrees of saturation lower than 70% flow occurred for lower gas injection pressures, and the effective gas permeability measured was in the range from 8 . 10(-2)1 to 4 . 10(-23) m(2), decreasing with confining pressure. The gas transport mechanism in those cases was probably 2-phase flow.
引用
收藏
页码:434 / 441
页数:8
相关论文
共 50 条
  • [1] The Residual Shear Strength of the Shaly and Sandy Facies of the Opalinus Clay
    Rosone, Marco
    Ferrari, Alessio
    Ziccarelli, Maurizio
    Giger, Silvio B.
    ENERGY GEOTECHNICS, SEG-2018, 2019, : 426 - 433
  • [2] Seismic and mechanical properties of Opalinus Clay: comparison between sandy and shaly facies from Mont Terri (Switzerland)
    Siegesmund, S.
    Popp, T.
    Kaufhold, A.
    Dohrmann, R.
    Graesle, W.
    Hinkes, R.
    Schulte-Kortnack, D.
    ENVIRONMENTAL EARTH SCIENCES, 2014, 71 (08) : 3737 - 3749
  • [3] Seismic and mechanical properties of Opalinus Clay: comparison between sandy and shaly facies from Mont Terri (Switzerland)
    S. Siegesmund
    T. Popp
    A. Kaufhold
    R. Dohrmann
    W. Gräsle
    R. Hinkes
    D. Schulte-Kortnack
    Environmental Earth Sciences, 2014, 71 : 3737 - 3749
  • [4] Investigation into water retention and gas permeability of Opalinus clay
    Liu, Jiang-feng
    Wu, Yu
    Cai, Cheng-Zheng
    Ni, Hong-yang
    Cao, Xu-lou
    Pu, Hai
    Song, Shuai-bing
    Pu, Sheng-yan
    Skoczylas, Frederic
    ENVIRONMENTAL EARTH SCIENCES, 2018, 77 (05)
  • [5] Investigation into water retention and gas permeability of Opalinus clay
    Jiang-feng Liu
    Yu Wu
    Cheng-Zheng Cai
    Hong-yang Ni
    Xu-lou Cao
    Hai Pu
    Shuai-bing Song
    Sheng-yan Pu
    Frédéric Skoczylas
    Environmental Earth Sciences, 2018, 77
  • [6] The long-term strength and creep behavior of fully saturated shaly Opalinus Clay
    Gotzen, Lina
    Winhausen, Lisa
    Jalali, Mohammadreza
    Khaledi, Kavan
    Amann, Florian
    ENGINEERING GEOLOGY, 2025, 348
  • [7] Mechanical behavior of sandy facies of Opalinus Clay under different load conditions
    Zhang, Chun-Liang
    Laurich, Ben
    JOURNAL OF ROCK MECHANICS AND GEOTECHNICAL ENGINEERING, 2020, 12 (02) : 223 - 241
  • [8] The effect of Onsager processes on radionuclide transport in the Opalinus Clay
    Soler, JM
    CONFIDENCE IN MODELS OF RADIONUCLIDE TRANSPORT FOR SITE-SPECIFIC ASSESSMENTS, 2001, : 181 - 200
  • [9] Mechanical behavior of sandy facies of Opalinus Clay under different load conditions
    Chun-Liang Zhang
    Ben Laurich
    Journal of Rock Mechanics and Geotechnical Engineering, 2020, 12 (02) : 223 - 241
  • [10] In situ diffusion test of hydrogen gas in the Opalinus Clay
    Vinsot, A.
    Appelo, C. A. J.
    Lundy, M.
    Wechner, S.
    Lettry, Y.
    Lerouge, C.
    Fernandez, A. M.
    Labat, M.
    Tournassat, C.
    De Canniere, P.
    Schwyn, B.
    Mckelvie, J.
    Dewonck, S.
    Bossart, P.
    Delay, J.
    CLAYS IN NATURAL AND ENGINEERED BARRIERS FOR RADIOACTIVE WASTE CONFINEMENT, 2014, 400 : 563 - 578
12345