Research & Funding
Recent Research Projects
Development of a high-speed visible system for hydrogen safety: This work was supported by Ministry of Science and ICT of the Government, Republic of Korea with Korea Institute of Civil Engineering and Building Technology) (2022.01-2024.12).
Metal powder combustion for carbon recycling: This work was supported by the Hiroshima prefecture (2022.10-2024.09)
Development of aluminum combustor: This work was supported by Electric Technology Research Foundation of Chugoku (2024.04-2025.03)
Development of control technology for dust explosion: This work was supported by JSPS KAKENHI Grant Numbers 23KK0270: Grant-in-Aid for Fund for the Promotion of Joint International Research (Fostering Joint International Research) with Eindhoven University of Technology (2024.04-2027.03)
Development of evaluation method for minimum explosible concentration: This work was supported by JSPS KAKENHI Grant Numbers (2024.04-2027.03)
Thermal runaway in lithium-ion batteries: This work was supported by National Fire Agency, Republic of Korea with Korea Institute of Civil Engineering and Building Technology (2024.04-2027.12)
Simulation of dust explosion: Collaborate with Tokyo Univ. of Science, Meiji Univ., and The Univ. of Tokyo. This work was supported by JSPS KAKENHI Grant Numbers 21H04593 (2021.04-2026.03)
Previous Research Projects
Dust flame propagation in microgravity: This work was supported by JSPS KAKENHI Grant Numbers 21K14379 (2021.04-2024.03)
Regional circular livestock system based on large improvement of power generation efficiency using ammonia derived from the livestock waste: Collaborate with Hiroshima University, This research was supported by the Environment Research and Technology Development Fund of the Ministry of the Environment, Japan (2020.4-2023.3)
Combustion of carbon nanomaterials: This work was supported by Betterial (2021.12-2022.12)
Metal particle combustion: This work was supported by the Iwatani Naoji Foundation (2022.04-2023.03)
A large-scale explosion in hydrogen-air mixtures: This work was supported by Korea Institute of Civil Engineering and Building Technology (2021-2022).
Flame propagation of hydrogen-aluminum-air mixtures: This work was supported by Suzuki foundation (2021-2022).
Elucidation of flammability limit in dust explosion: Collaborate with Japan Aerospace Exploration Agency (JAXA) Institute of Space and Astronautical Science (ISAS), The University of Tokyo, Yamagata University, Yamaguchi University. (2020-2022)
Effect of flow rate on the hydrogen flammable limit: Collaborate with Japan Automobile Research Institute (JARI) (2019-2022)
Explosion properties of hybrid mixtures: Collaborate with Korea Institute of Civil Engineering and Building Technology. (2019-2022)
Development of advanced explosion safety technology for hydrogen system: Collaborate with The University of Tokyo and Yamagata University. This work was supported by JSPS KAKENHI Grant Numbers JP18H03822 (2018-2022) Link
Dust explosion in microgravity - Combustion characteristics and flame propagation mechanisms in dust explosions: Collaborate with Japan Aerospace Exploration Agency (JAXA) Institute of Space and Astronautical Science (ISAS), The University of Tokyo, Yamagata University, Yamaguchi University. (2019-2020)
Pyrolysis and Ignition of hybrid mixture: Collaborate with National Institute of Occupational Safety and Health (2019-2020)
Flame acceleration of hydrogen-air mixtures: This work was supported by Suzuki foundation (2019-2020)
Self-similar propagation in premixed hydrogen flames This work was supported by Electric Technology Research Foundation of Chugoku (2019-2020)
Self-similarity of flame acceleration in gas explosions: This work was supported by JSPS KAKENHI Grant Numbers JP18K13958 (2018-2020) Link
Explosion and electrostatic characteristics of amino acid powder: Collaborate with Ajinomoto Co. Inc. and National Institute of Occupational Safety and Health (2018-2019)
Hydrogen safety - high-pressure hydrogen tank: Collaborate with Ulster University (UK) (2018-2020)
Acquisition of competitive funding
(On-going)
広島県カーボンリサイクル関連技術研究開発支援事業補助金 (2022.10-2024.09)【代表】
Ministry of Science and ICT of the Government, Republic of Korea (2022.01-2024.12)【代表】
科学研究費助成事業「基盤研究(B)」 (2024.04-2027.03) 【代表】
科学研究費助成事業「国際共同研究加速基金(国際共同研究強化)」 (2024.04-2027.03) 【代表】
中国電力技術研究財団試験研究A (2024.04-2025.03) 【代表】
National Fire Agency, Republic of Korea (2024.04-2027.12) 【分担】
科学研究費助成事業「基盤研究(A)」(2021.04-2026.03) 【分担】
(Finished)
科学研究費助成事業「若手研究」 (2021.04-2024.03) 【代表】
岩谷科学技術研究助成 (2022.04-2023.03)【代表】
Betterial (2021.12-2022.12) 【代表】
環境研究総合推進費 (2020.04-2023.03)【分担】
JAXA/ISAS 宇宙環境利用フロントローディング研究 (2021.06-2022.03) 【代表】
Korea Institute of Civil Engineering and Building Technology (2021.04-2022.02) 【代表】
スズキ財団、令和3年度科学技術研究助成 (2021.04-2022.03) 【代表】
科学研究費助成事業「基盤研究(A)」(2018.04-2022.03) 【分担】
JAXA/ISAS 宇宙環境利用フロントローディング研究 (2020.07-2021.02) 【代表】
JAXA/ISAS 宇宙環境利用フロントローディング研究 (2019.10-2020.02) 【代表】
中国電力技術研究財団試験研究A (2019.04-2021.03) 【代表】
スズキ財団、平成30年度科学技術研究助成 (2019.04-2021.03) 【代表】
科学研究費助成事業「若手研究」 (2018.04-2021.03) 【代表】
公益財団法人LIXIL住生活財団若手研究助成 (2017.01-2018.01) 【代表】
スズキ財団、平成28年度研究者海外研修助成 (2016.07) 【代表】
平成28年度広島大学萌芽的研究支援金(2016.04-2017.03) 【代表】
Images
Microgravity dust flame
Microgravity experimental apparatus
Drop tower experiment
Soap Bubble method
Dust flame propagation
Cellular flames due to the instabilities in high-pressure explosion chamber
large-scale celluar flame