| Mitsuo Matsumoto | Last modified date:2023.02.28 |
Assistant Professor /
Earth Science and Technology /
Department of Earth Resources Engineering /
Faculty of Engineering
Papers
| 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. |
| 3. | , [URL]. |
| 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. |
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