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Investigation of Fault Permeability in Sands with Different Mineral Compositions (Evaluation of Gas Hydrate Reservoir)

Author

Listed:
  • Sho Kimura

    (Reservoir Modeling Team, Methane Hydrate Research Centre, National Institute of Advanced Industrial Science and Technology (AIST), 2-17-2-1 Tsukisamu-Higashi, Toyohira-ku, Sapporo 062-8517, Japan)

  • Hiroaki Kaneko

    (Reservoir Modeling Team, Methane Hydrate Research Centre, National Institute of Advanced Industrial Science and Technology (AIST), 2-17-2-1 Tsukisamu-Higashi, Toyohira-ku, Sapporo 062-8517, Japan)

  • Takuma Ito

    (Reservoir Modeling Team, Methane Hydrate Research Centre, National Institute of Advanced Industrial Science and Technology (AIST), 2-17-2-1 Tsukisamu-Higashi, Toyohira-ku, Sapporo 062-8517, Japan
    Current Address: Research Institute of Innovative Technology for the Earth (RITE), 9-2 Kizugawa-dai, Kizugawa, Kyoto 619-0292, Japan;)

  • Hideki Minagawa

    (Reservoir Modeling Team, Methane Hydrate Research Centre, National Institute of Advanced Industrial Science and Technology (AIST), 2-17-2-1 Tsukisamu-Higashi, Toyohira-ku, Sapporo 062-8517, Japan)

Abstract

We used a ring-shear apparatus to examine the perpendicular permeability of sands with different mineral compositions to evaluate fault behavior around gas hydrate reservoirs. The effect of effective normal stress on the permeability of two sand types was investigated under constant effective normal stresses of 0.5–8.0 MPa. Although Toyoura sand and silica sand No. 7 mainly comprise quartz, silica sand No. 7 contains small amounts of feldspar. For Toyoura sand, the permeability after ring-shearing dramatically decreased with increasing effective normal stress up to 3.0 MPa, then gradually decreased for stresses over 3.0 MPa, whereas the permeability after ring-shearing of silica sand No. 7 rapidly decreased with increasing effective normal stress up to 2.0 MPa. Although the relationships between the permeability after ring-shearing and effective normal stress for both sands could be expressed by exponential equations up to 3.0 MPa, a more gradual change in slope was shown for Toyoura sand. The permeabilities of both sands were almost equal for effective normal stresses over 3.0 MPa. The mineralogical properties of the small amount of feldspar in the sample indicate that both mineralogy and original grain size distribution affect the fault permeability and shear zone formation.

Suggested Citation

  • Sho Kimura & Hiroaki Kaneko & Takuma Ito & Hideki Minagawa, 2015. "Investigation of Fault Permeability in Sands with Different Mineral Compositions (Evaluation of Gas Hydrate Reservoir)," Energies, MDPI, vol. 8(7), pages 1-22, July.
    • Handle: RePEc:gam:jeners:v:8:y:2015:i:7:p:7202-7223:d:52693
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    Cited by:

    1. Mingtao Chen & Yanlong Li & Şükrü Merey & Nengyou Wu & Qiaobo Hu & Yajuan Zhang & Lin Dong & Guigang Yu & Haiyang Jiang, 2022. "Review on the Test Methods and Devices for Mechanical Properties of Hydrate-Bearing Sediments," Sustainability, MDPI, vol. 14(10), pages 1-23, May.
    2. Asma Akter Parlin & Monami Kondo & Noriaki Watanabe & Kengo Nakamura & Mizuki Yamada & Jiajie Wang & Takeshi Komai, 2021. "Water-Enhanced Flux Changes under Dynamic Temperatures in the Vertical Vapor-Phase Diffusive Transport of Volatile Organic Compounds in Near-Surface Soil Environments," Sustainability, MDPI, vol. 13(12), pages 1-13, June.

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