Rchr
J-GLOBAL ID:201801004969089126
Update date: Nov. 15, 2024
Ihara Tomonori
イハラ トモノリ | Ihara Tomonori
Research field (1):
Fluid engineering
Research theme for competitive and other funds (5):
- 2021 - 2024 Experimental modeling of hydrothermal fluid flow focusing on velocity field
- 2020 - 2023 Development of prediction method for two-phase flow under ship bottom considering hydrodynamic characteristics on shell surface
- 2018 - 2021 Development of Quantitative Observation Technique for Fluid Flow Rate at Hydrothermal vents
- 2017 - 2020 Development of external two-phase flow prediction method applicable to seawater environment
- 2016 - 2018 Development of Bubble Behavior Monitoring System around the Ship Body by Means of Ultrasonic Pulsed Doppler Method
Papers (11):
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Tatsuya Hazuku, Tomonori Ihara, Takashi Hibiki. Reduction of skin friction and two-phase flow structure beneath wall in horizontal rectangular channel. Ocean Engineering. 2022. 248. 110846-110846
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Shumpei Ito, Yoshiaki Tanaka, Tatsuya Hazuku, Tomonori Ihara, Motoaki Morita, Ivor Forsdyke. Wax Thickness and Distribution Monitoring Inside Petroleum Pipes Based on External Temperature Measurements. ACS omega. 2021. 6. 8. 5310-5317
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Wilson Susanto, Tomonori Ihara, Tatsuya Hazuku, Shinichi Morooka, Sho Kano. Surface wettability enhancement on oxide film coated-steels due to gamma-ray irradiation. MECHANICAL ENGINEERING JOURNAL. 2020. 7. 3. ICONE27-2165
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Sho Kano, Huilong Yang, John McGrady, Tomonori Ihara, Tatsuya Hazuku, Hiroaki Abe. Wettability Recovery Behavior Governed by Desorption of Hydroxyl Species in Steel. Langmuir. 2019. 35. 21. 6830-6837
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Sho Kano, Huilong Yang, John McGrady, Tomonori Ihara, Hazuku Tatsuya, Hiroaki Abe. Investigation of radiation-induced surface activation effect in austenitic stainless steel under ultraviolet and γ-ray irradiations. Journal of Nuclear Science and Technology. 2019. 56. 3. 300-309
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