Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery

Hiroaki Sakai, Masanori Kurihara

    研究成果: Paper

    抄録

    In this research, we developed a double-permeability type compositional simulator (ECBM simulator) which deals with two phases of gas and water composed of four components of H2O, CH4, CO2 and N2. The phase behavior/equilibrium is calculated by solving the Equation of State (EOS). Hence in this simulator, phase behavior is determined in accordance with thermodynamic equilibrium. In addition, this simulator can predict the behavior of each component taking the Darcy flow, diffusion and adsorption/desorption into consideration. After developing this in-house ECBM simulator, we validated the simulator by comparing the simulation results with those calculated by GEM (commercial simulator of Computer Modelling Group Ltd.). Through the comparison, we confirmed that the in-house ECBM simulator worked accurately. We then conducted case studies using the in-house ECBM simulator to examine the effects of the injection of CO2 and/or N2 gas on CH4 production. It was revealed that N2 gas enhanced the CH4 production from the early stage of the injection by reducing the partial pressure of CH4, while CO2 gas increased the CH4 production slowly by replacing CH4 adsorbed on the coal surface.

    元の言語English
    出版物ステータスPublished - 2018 1 1
    イベント24th Formation Evaluation Symposium of Japan - Chiba, Japan
    継続期間: 2018 10 112018 10 12

    Other

    Other24th Formation Evaluation Symposium of Japan
    Japan
    Chiba
    期間18/10/1118/10/12

    Fingerprint

    coalbed methane
    simulator
    Simulators
    permeability
    Recovery
    Gases
    Phase behavior
    gas
    Coal bed methane
    Air cushion vehicles
    Coal
    partial pressure
    Equations of state
    equation of state
    Partial pressure
    Desorption
    desorption
    thermodynamics
    Thermodynamics
    coal

    ASJC Scopus subject areas

    • Economic Geology
    • Energy Engineering and Power Technology
    • Geochemistry and Petrology
    • Geology
    • Geotechnical Engineering and Engineering Geology

    これを引用

    Sakai, H., & Kurihara, M. (2018). Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery. 論文発表場所 24th Formation Evaluation Symposium of Japan, Chiba, Japan.

    Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery. / Sakai, Hiroaki; Kurihara, Masanori.

    2018. 論文発表場所 24th Formation Evaluation Symposium of Japan, Chiba, Japan.

    研究成果: Paper

    Sakai, H & Kurihara, M 2018, 'Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery', 論文発表場所 24th Formation Evaluation Symposium of Japan, Chiba, Japan, 18/10/11 - 18/10/12.
    Sakai H, Kurihara M. Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery. 2018. 論文発表場所 24th Formation Evaluation Symposium of Japan, Chiba, Japan.
    Sakai, Hiroaki ; Kurihara, Masanori. / Development of double-permeability type compositional simulator for predicting enhanced coalbed methane recovery. 論文発表場所 24th Formation Evaluation Symposium of Japan, Chiba, Japan.
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