Development of geothermal reservoir simulator for predicting three-dimensional water-steam flow behavior considering non-equilibrium state and kazemi/MINC double porosity system

Sumire Fujii, Yuki Ishigami, Masanori Kurihara

    研究成果: Conference contribution

    1 引用 (Scopus)

    抜粋

    Although the reservoir simulation is widely utilized to predict geothermal reservoir performances, the results of the simulation are sometimes different from those actually observed in field operations due to non-equilibrium conditions. For example, the recharge water sometimes reaches producing wells much earlier than predicted by reservoir simulation. Therefore, in this research, we attempted to develop a numerical simulator that can deal with the non-equilibrium vaporization of water and condensation of steam for predicting geothermal reservoir performances more accurately. First, we developed a three-dimensional simulator that can predict the flow behavior of geothermal fluids in a non-equilibrium state. Conventional geothermal simulators solve the only material balance equation for all the water molecules regardless of the phase condition. On the other hand, in the simulator developed in this research, water molecules in the liquid phase are distinguished from those in vapor phase, and the two material balance equations are derived for water and steam separately. These equations have the terms to express the molecular transportation from steam to water and vice versa. Non-equilibrium vaporization and condensation of water molecules are expressed by adjusting the kinetic rate of transportation of water molecules across phases. Next, we expanded the functions of the above simulator, incorporating two types of double porosity models, Kazemi and MINC, to reproduce the fluid flow preferentially through fractures and faults. After verifying the simulator functions, we investigated how the speed of the transportation of water molecules across phases affected the geothermal reservoir performances, especially those with recharging water. Case studies revealed that the non-equilibrium condition hastened the movement of the water injected as recharge water through fractures, which resulted in the water breakthrough earlier than predicted by conventional (equilibrium type) simulators.

    元の言語English
    ホスト出版物のタイトルGeothermal's Role in Today's Energy Market - Geothermal Resources Council 2018 Annual Meeting, GRC 2018
    出版者Geothermal Resources Council
    ページ1762-1798
    ページ数37
    42
    ISBN(電子版)0934412235
    出版物ステータスPublished - 2018 1 1
    イベントGeothermal Resources Council 2018 Annual Meeting: Geothermal's Role in Today's Energy Market, GRC 2018 - Reno, United States
    継続期間: 2018 10 142018 10 17

    Other

    OtherGeothermal Resources Council 2018 Annual Meeting: Geothermal's Role in Today's Energy Market, GRC 2018
    United States
    Reno
    期間18/10/1418/10/17

      フィンガープリント

    ASJC Scopus subject areas

    • Renewable Energy, Sustainability and the Environment
    • Energy Engineering and Power Technology
    • Geophysics

    これを引用

    Fujii, S., Ishigami, Y., & Kurihara, M. (2018). Development of geothermal reservoir simulator for predicting three-dimensional water-steam flow behavior considering non-equilibrium state and kazemi/MINC double porosity system. : Geothermal's Role in Today's Energy Market - Geothermal Resources Council 2018 Annual Meeting, GRC 2018 (巻 42, pp. 1762-1798). Geothermal Resources Council.