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Achievement 研究成果

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Achievement

Reviewed Papers

Reviewed Papers 査読付論文

  1. 164.

    N. Suwandi, F. Jiang, T. Tsuji, Relative Permeability Variation Depending on Viscosity Ratio and Capillary Number, Water Resources Research, 58, B10, doi:10.1029/2021WR031501, 2022
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  2. 163.

    Y. Suwa, Z. Gu, T. Obata, S. Nakagawa, R. Morishita, K. Sawayama, T. Tsuji, Accurate determination of the first arrival time of elastic wave traveled through rock sample by machine learning. Journal of Applied Geophysics. 203, 104688, doi:10.1016/j.jappgeo.2022.104688, 2022
    Detail

  3. 162.

    M. Ikeda, K. Kret, T. Tsuji, T. Ikeda, T. Tsuji, K. Onishi, N. Nishizaka, Pore fabric anisotropy and elastic moduli of fault rocks from the Median Tectonic Line, Shikoku, southwest Japan. Tectonophysics. 834, 229366, 2022.
    Detail

  4. 161.

    A. Chapman, E. Ertekin, M. Kubota, et al., Achieving a Carbon Neutral Future through Advanced Functional Materials and Technologies, Bulletin of the Chemical Society of Japan, 95(1), 73-103, 2022.
    Detail

  5. 160.

    F. Jiang, H. Liu, X. Chen, T. Tsuji, A coupled LBM-DEM method for simulating the multiphase fluid-solid interaction problem, Journal of Computational Physics, 454, 110963, 2022.
    Detail

  6. 159.

    K. Sawayama, T. Ikeda, T. Tsuji, F. Jiang, O. Nishizawa, Y. Fujimitsu, Elastic Wave Velocity Changes Due to the Fracture Aperture and Density, and Direct Correlation With Permeability: An Energetic Approach to Mated Rock Fractures, JGR Solid Earth. 127, doi:10.1029/2021JB022639, 2022.
    Detail

  7. 158.

    Y. Zhang, F. Jiang , T. Tsuji, Influence of pore space heterogeneity on mineral dissolution and permeability evolution investigated using lattice Boltzmann method, Chemical Engineering Science, 117048, 247, 117048, 2022.
    Detail

  8. 157.

    諏訪雄二, 顧志明, 小幡拓也, 中川慎二, 森下諒一, 澤山和貴, 辻 健, 機械学習による弾性波速度測定実験の自動解析技術, 電子情報通信学会論文誌D, Vol.J106-D, 1, 52-59, 2022.
    Detail

  9. 156.

    折田まりな, 池田達紀, 辻 健, 月面探査に向けた地震アレイの小型化:アポロの微動データを用いた可探深度の検討, 物理探査, 74, 79-91, 2021.
    Detail

  10. 155.

    M. Mourad, T. Tsuji, T. Ikeda, K. Ishitsuka, S. Senna, K. Ide, Mapping Aquifer Storage Properties Using S-Wave Velocity and InSAR-Derived Surface Displacement in the Kumamoto Area, Southwest Japan. Remote Sensing. 13, 4391,doi:10.3390/rs13214391,2021.
    Detail

  11. 154.

    H. Nimiya, T. Ikeda, T. Tsuji, Temporal changes in anthropogenic seismic noise levels associated with economic and leisure activities during the COVID-19 pandemic. Sci Rep. 11, 20439, doi:10.1038/s41598-021-00063-6,2021
    Detail

  12. 153.

    I. Ando, Y. Mugita, K. Hirayama, S. Munetoh, M. Aramaki, F. Jiang, T. Tsuji, A. Takeuchi, M. Uesugi, Y. Ozaki, Elucidation of pore connection mechanism during ductile fracture of sintered pure iron by applying persistent homology to 4D images of pores: Role of open pore, Materials Science and Engineering: A, 828, 142112, 2021.
    Detail

  13. 152.

    T. Tsuji, T. Ikeda, R. Matsuura, K. Mukumoto, H.F. Lawrens, T. Kimura, K. Yamaoka, M. Shinohara, Continuous monitoring system for safe managements of CO2 storage and geothermal reservoirs, Scientific Reports, 11, 19120, doi:10.1038/s41598-021-97881-5, 2021.
    Detail

  14. 151.

    A. Suzuki, M. Miyazawa, J. M. Minto, T. Tsuji, I. Obayashi, Y. Hiraoka, T. Ito, Flow estimation solely from image data through persistent homology analysis. Sci Rep. 11, 17948, doi:10.1038/s41598-021-97222-6,2021
    Detail

  15. 150.

    A.B. Ahmad, and T. Tsuji, Machine learning for automatic slump identification from 3D seismic data at convergent plate margins, Marine and Petroleum Geology, 133, 105290, doi: 10.1016/j.marpetgeo.2021.105290, 2021.
    Detail

  16. 149.

    T. Tsuji, M. Sorai, M. Shiga, S. Fujikawa, T. Kunitake, Geological storage of CO 2 –N 2 –O 2 mixtures produced by membrane based direct air capture (DAC). Greenhouse Gas Sci Technol. 11, 610–618,doi:10.1002/ghg.2099,2021
    Detail

  17. 148.

    T. Hirose, Y. Hamada, W. Tanikawa, N. Kamiya, Y. Yamamoto, T. Tsuji, M. Kinoshita, V. B. Heuer, F. Inagaki, Y. Morono, Y. Kubo, High Fluid Pressure Patches Beneath the Décollement: A Potential Source of Slow Earthquakes in the Nankai Trough off Cape Muroto. JGR Solid Earth. 126, doi:10.1029/2021JB021831, 2021
    Detail

  18. 147.

    C. Chhun, and T. Tsuji, Pore pressure and gas saturation distribution in the forearc basin of the Nankai subduction zone inferred from high-resolution Vp and Vs, Journal of Petroleum Science and Engineering, Vol. 205, 108911 https://doi.org/10.1016/j.petrol.2021.108911,2021
    Detail

  19. 146.

    A.B. Ahmad, and T. Tsuji, Traffic Monitoring System Based on Deep Learning and Seismometer Data, Applied Sciences, Vol. 11(10), 4590, doi: 10.3390/app11104590,2021.
    Detail

  20. 145.

    T. Ikeda, T. Tsuji, C. Konishi, H. Saito, Spatial autocorrelation method for reliable measurements of two-station dispersion curves in heterogeneous ambient noise wavefields, Geophysical Journal International, Volume 226, Issue 2, Pages 1130-1147,ggab150, 2021.
    Detail

  21. 144.

    K. Sawayama, T. Ishibashi, F. Jiang, T. Tsuji, O. Nishizawa, Y. Fujimitsu, Scale-independent relationship between permeability and resistivity in mated fractures with natural rough surfaces, Geothermics, 94, 102065, doi:10.1016/j.geothermics.2021.102065, 2021.
    Detail

  22. 143.

    K. Sawayama, T. Ishibashi, F. Jiang, T. Tsuji, Y. Fujimitsu, Relating hydraulic-electrical-elastic properties of natural rock fractures at elevated stress and associated transient changes of fracture flow, Rock Mechanics and Rock Engineering, 54, 2145-2164, doi: 10.1007/s00603-021-02391-5, 2021.
    Detail

  23. 142.

    A. Hendriyana, and T. Tsuji, Influence of structure and pore pressure of plate interface on tectonic tremor in the Nankai subduction zone, Japan, Earth and Planetary Science Letters, Volume 558, 116742, doi:10.1016/j.epsl.2021.116742, 2021.
    Detail

  24. 141.

    R. D. Andajani, T. Tsuji, R. Snieder, and T. Ikeda, Spatial and temporal influence of rainfall on crustal pore pressure based on seismic velocity monitoring, Earth, Planets and Space, Vol. 72, Issue 1, Pages 1-17, doi:10.1186/s40623-020-01311-1, 2020.
    Detail

  25. 140.

    C. Chhun and T. Tsuji, Pore pressure analysis for distinguishing earthquakes induced by CO2 injection from natural earthquakes, Sustainability, 12, 9723; doi:10.3390/su12229723, 2020.
    Detail

  26. 139.

    F. Jiang, J. Yang, E. Boek, and T. Tsuji, Investigation of viscous coupling effects in three-phase flow by lattice Boltzmann direct simulation and machine learning technique, Advances in Water Resources, Vol. 147, 103797, doi:10.1016/j.advwatres.2020.103797, 2021.
    Detail

  27. 138.

    K. Ishitsuka, T. Tsuji, W. Lin, M. Kagabu, and J. Shimada, Seasonal and transient surface displacements in the Kumamoto area, Japan, associated with the 2016 Kumamoto earthquake: Implications for seismic-induced groundwater level change, Earth, Planets and Space, Vol. 72, Issue 1, Pages 1-15, doi:10.1186/s40623-020-01275-2, 2020.
    Detail

  28. 137.

    A. Chapman and T. Tsuji, Impacts of COVID-19 on a transitioning energy system, society, and international cooperation, Sustainability, 12, 8232; doi:10.3390/su12198232, 2020.
    Detail

  29. 136.

    K. Takahashi, M. Ikeda, Y. Sato, K. Adachi, N. Nishizaka, K. Onishi, Y. Ono, K. Tsuyuguchi, T. Tsuji, Distribution and activity of Median Tectonic Line in the Iyo-nada Sea off northwestern Shikoku based on seismic survey, Active fault research, Vol. 53, Pages 13-32,doi:10.11462/afr.2020.53_13, 2020.
    Detail

  30. 135.

    F. L. Hutapea, T. Tsuji, M. Katou, and E. Asakawa, Data processing and interpretation schemes for a deep-towed high-frequency seismic system for gas and hydrate exploration, Journal of Natural Gas Science and Engineering, Vol. 83, 103573, doi:10.1016/j.jngse.2020.103573, 2020
    Detail

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