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Research on Fluid Flow and Permeability in Low Porous Rock Sample Using Laboratory and Computational Techniques

Author

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  • Paulina Krakowska

    (Faculty of Geology, Geophysics and Environmental Protection, Department of Geophysics, AGH University of Science and Technology, 30-059 Kraków, Poland)

  • Paweł Madejski

    (Faculty of Mechanical Engineering and Robotics, Department of Power Systems and Environmental Protection Facilities, AGH University of Science and Technology, 30-059 Kraków, Poland)

Abstract

The paper presents results of fluid flow simulation in tight rock being potentially gas-bearing formation. Core samples are under careful investigation because of the high cost of production from the well. Numerical simulations allow determining absolute permeability based on computed X-ray tomography images of the rock sample. Computational fluid dynamics (CFD) give the opportunity to use the partial slip Maxwell model for permeability calculations. A detailed 3D geometrical model of the pore space was the input data. These 3D models of the pore space were extracted from the rock sample using highly specialized software poROSE (poROus materials examination SoftwarE, AGH University of Science and Technology, Kraków, Poland), which is the product of close cooperation of petroleum science and industry. The changes in mass flow depended on the pressure difference, and the tangential momentum accommodation coefficient was delivered and used in further quantitative analysis. The results of fluid flow simulations were combined with laboratory measurement results using a gas permeameter. It appeared that for the established parameters and proper fluid flow model (partial slip model, Tangential Momentum Accommodation Coefficient (TMAC), volumetric flow rate values), the obtained absolute permeability was similar to the permeability from the core test analysis.

Suggested Citation

  • Paulina Krakowska & Paweł Madejski, 2019. "Research on Fluid Flow and Permeability in Low Porous Rock Sample Using Laboratory and Computational Techniques," Energies, MDPI, vol. 12(24), pages 1-17, December.
    • Handle: RePEc:gam:jeners:v:12:y:2019:i:24:p:4684-:d:295928
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    References listed on IDEAS

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    1. Guofeng Han & Yang Chen & Xiaoli Liu, 2019. "Investigation of Analysis Methods for Pulse Decay Tests Considering Gas Adsorption," Energies, MDPI, vol. 12(13), pages 1-23, July.
    2. Xinxing Ma & Xianwen Li & Shouwen Zhang & Yanming Zhang & Xiangie Hao & Jishan Liu, 2019. "Impact of Local Effects on the Evolution of Unconventional Rock Permeability," Energies, MDPI, vol. 12(3), pages 1-17, February.
    3. Xinling Li & Zeyun Jiang & Chao Min, 2019. "Quantitative Study of the Geometrical and Hydraulic Characteristics of a Single Rock Fracture," Energies, MDPI, vol. 12(14), pages 1-17, July.
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    Cited by:

    1. Anna Wachowicz-Pyzik & Anna Sowiżdżał & Leszek Pająk & Paweł Ziółkowski & Janusz Badur, 2020. "Assessment of the Effective Variants Leading to Higher Efficiency for the Geothermal Doublet, Using Numerical Analysis‒Case Study from Poland (Szczecin Trough)," Energies, MDPI, vol. 13(9), pages 1-20, May.
    2. Paulina Krakowska-Madejska & Edyta Puskarczyk & Magdalena Habrat & Paweł Madejski & Marek Dohnalik & Mariusz Jędrychowski, 2021. "Development of a Permeability Formula for Tight and Shale Gas Reservoirs Based on Advanced High-Precision Lab Measurement Techniques," Energies, MDPI, vol. 14(9), pages 1-25, May.

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