Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
Mitsuo Matsumoto Last modified date:2023.02.28

Assistant Professor / Earth Science and Technology / Department of Earth Resources Engineering / Faculty of Engineering

1. Mitsuo MATSUMOTO, Haruki OKADA, Ryuichi ITOI, and Yasuhiro FUJIMITSU, Numerical Simulation of Periodic Wellbore Flow Due to the Inflow of Low-Enthalpy Fluid, Proceedings of the 48th Stanford Geothermal Workshop, 2023.02.
2. Matsumoto, M., Quick and preliminary approach for forecasting natural recharge to a hydrothermal reservoir during production, Proceedings of World Geothermal Congress 2020, 2021.05.
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4. Matsumoto, M., Okada, H., Itoi, R., and Fujimitsu, Y., Preliminary Study of Dependence of the Modification Factor Controlling Generation of Periodic Wellbore Flow, Proceedings of the 46th Stanford Geothermal Workshop, 2021.02.
5. Matsumoto, M., Itoi, R., and Fujimitsu, Y., Theoretical study of conditions for generation of periodic wellbore flow due to inflow of a lower-enthalpy fluid, Geothermics, 10.1016/j.geothermics.2020.101948, 89, 101948, 2021.01, [URL].
6. Matsumoto, M., A single-phase reservoir simulation method based on a roughly distributed and highly permeable fracture network model with applications to production and reinjection problems, Geothermics, 84, 101744, 2020.03.
7. Matsumoto, M., Itoi, R., and Fujimitsu, Y., Numerical Study on Conditions for Generation of Periodic Wellbore Flows, Proceedings of the 45th Stanford Geothermal Workshop, 2020.02.
8. Matsumoto, M., Connecting wellbore and reservoir simulation models seamlessly using a highly refined grid, Proceedings of the 43rd Stanford Geothermal Workshop, 2018.02.
9. Matsumoto, M., Extending the application of the Constrained Interpolation Profile (CIP) scheme from single-phase to two-phase hydrothermal reservoir simulations, Proceedings of the 42nd Stanford Geothermal Workshop, 2017.02.
10. Matsumoto, M., Application of the Constrained Interpolation Profile (CIP) scheme to two-dimensional single-phase hydrothermal reservoir simulations, Geothermics, 54, 10-22, 2015.03.
11. Toramaru, A. and Matsumoto, M., Numerical experiment of cyclic layering in a solidified binary eutectic melt, Journal of Geophysical Research, 117, B02209, 2012.02.
12. Matsumoto, M., Improving the numerical accuracy of hydrothermal reservoir simulations using the CIP scheme with third order accuracy, Proceedings of the 37th Stanford Geothermal Workshop, 2012.01.
13. Matsumoto, M., A simple explicit method to simulate underground flow of water and steam with a parallel computer, Proceedings of the International Symposium on Earth Science and Technology 2008, 2008.12.
14. Matsumoto, M., Ehara, S., and Fujimitsu, Y., Numerical study of pressurization process in a magma reservoir with crystallization and volatile exsolution: comparison with the periodicity of eruptive activities, Proceedings of the 5th International Workshop on Earth Science and Technology, 2007.12.
15. Matsumoto, M. and Ehara, S., Numerical study of pressure change in a crystallizing, volatile-saturated magma reservoir causing eruption, Proceedings of the 4th International Workshop on Earth Science and Technology, 2006.12.