||M. Matsumoto, Analogue experiment of well tests using a thermal conductivity meter, 2nd KYUSHU-NTU COLLOQUIUM, 2020.06.
||M. Matsumoto, Connecting wellbore and reservoir simulation models seamlessly using a highly refined grid, The 43rd Stanford Geothermal Workshop, 2018.02.
||M. Matsumoto, Extending the application of the Constrained Interpolation Profile (CIP) scheme from single-phase to two-phase hydrothermal reservoir simulations, The 42nd Stanford Geothermal Workshop, 2017.02.
||M. Matsumoto, Improving the numerical accuracy of hydrothermal reservoir simulations using the CIP scheme with third order accuracy, The 37th Stanford Geothermal Workshop, 2012.01.
||M. Matsumoto, A simple explicit method to simulate underground flow of water and steam with a parallel computer, International Symposium on Earth Science and Technology 2008, 2008.12.
||M. Matsumoto and A. Toramaru, Numerical study of the kinetics of crystallization under 1-D conductive cooling: Effects of mass diffusivity, latent heat, and country rock temperature, IAVCEI 2008 General Assembly, 2008.08.
||M. Matsumoto, S. Ehara and Y. Fujimitsu, Numerical study of pressurization process in a magma reservoir with crystallization and volatile exsolution: comparison with the periodicity of eruptive activities, The 5th International Workshop on Earth Science and Technology, 2007.12.
||M. Matsumoto and A. Toramaru, Difficulty in the numerical analysis of magma convection by SIMPLER algorithm, Cities on Volcanoes 5 conference, 2007.11.
||M. Matsumoto and S. Ehara, Numerical study of pressure change in a crystallizing, volatile-saturated magma reservoir causing eruption, The 4th International Workshop on Earth Science and Technology, 2006.12.