プレイオジョでもらえる初回入金ボーナスを徹底解説【最新版】

Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Themes Researchers JP Top Energy Development of integrated safety management technology for hydrogen energy systems Development of integrated safety management technology for hydrogen energy systems JAPANESEINQUIRY update：2022/06/13       NEXT PREV Features and Uniqueness To investigate the diffusion and combustion phenomena of reactive hydrogen gas leakage when a high-pressure hydrogen tank fails due to crack propagation caused by an initial defect, we have developed a coupled analysis method that simultaneously analyzes the material structure and reactive turbulent multiphase flow through an interdisciplinary research approach. Furthermore, we have developed a new numerical prediction method related to the diffusion flow characteristics and combustion limits of hydrogen leaking due to crack propagation failure of high-pressure tank bulkheads. Practical Application We contribute to the design of hydrogen storage containers for various types of transportation equipment and the development of safety guidelines and risk management for hydrogen station configurations. Keywords Hydrogen Coupled computing Multiphase flow Combustion Fracture mechanics Risk science Leakage Integrated research Computational mechanics Researchers Institute of Fluid Science Jun Ishimoto, ProfessorPh.D Laboratory Website researchmap Laboratory Website researchmap Related Information Jun Ishimoto, Satoru Shimada,Coupled computing for reactive hydrogen leakage phenomena with crack propagation in a pressure tank, International Journal of Hydrogen Energy,Volume 47, Issue 4, 2022, Pages 2735-2758, ISSN 0360-3199,https://doi.org/10.1016/j.ijhydene.2021.10.167. Browsing History Same Researcher Development of Sustainable Integrated Multiphase Energy System [ 石本 淳 教授 ] Advanced die casting process computing with solidification phenomena [ 石本 淳 教授 ] Development of a Numerical Prediction System for Sliding Part Wear and Seizure Occurrence Portions [ 石本 淳 教授 ] Common Keywords “HYDRIDE" Researches for Energy Applications [ 折茂 慎一 教授 ] Cavitation Peening [ 祖山 均 教授 ] Identification of Ignition and Combustion Characteristics by a Micro Flow Rector with a Temperature Gradient [ 丸田 薫 教授 ] Development of Solid-State-Ionics Materials for Energy Conversion, Storage and Utilization [ 髙村 仁 教授 ] Hydrogen embrittlement of high strength steels [ 秋山 英二 教授 ] User Who Reviewed This Content Also Reviewed Development of Sustainable Integrated Multiphase Energy System [ Jun Ishimoto Professor ] Advanced die casting process computing with solidification phenomena [ Jun Ishimoto Professor ] New High-Throughput, High Resolution DNA Methylation Analysis Method, PCR-Luminex for the Diagnosis of Genomic Imprinting Disorders in ART Babies [ ARIMA Takahiro Professor ] Research Profiles ©TOHOKU UNIVERSITY How to Use FAQ For Researchers Site Policy [jp] ©TOHOKU UNIVERSITY Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Fields Themes Researchers 日本語 ENGLISH Close