Research field (4):
Basic physical chemistry
, Thermal engineering
, Aerospace engineering
, Environmental dynamics
Research keywords (5):
Chemical kinetics
, Combustion chemistry
, Rocket propulsion
, Laser spectroscopy
, Atmospheric chemistry
Research theme for competitive and other funds (6):
2022 - 2025 Investigation of the impact of aerosol aggregation process on hypergolic ignition of hydrazine derivatives / dinitrogen tetroxide
2019 - 2022 Ignition and combustion characteristics of the hydrazine derivatives blends/NTO bipropellants
2015 - 2018 Comprehensive study on gas phase combustion model of nitrogen containing propellants
2014 - 2017 Study of Ignition Process on Hypergolic Fuel Using Detailed Chemical Reaction Model Constraction and High Time Resolution Non-contact Measurement
2013 - 2015 Kinetics study for the systematic development of detailed chemical kinetics model of alcohol combustion
2010 - 2011 Kinetic study of ethanol low temperature oxidation mechanism
Shigeto Yahata, Hayato Okuda, Norihiko Yoshikawa, Nozomu Kanno. Chemical Kinetics Computations of Fuel Decomposition to Aldehydes for NOx Reduction in Engine Exhaust Gass. International Journal of Chemical Engineering and Applications. 2016. 7. 4. 244-248
Real-time gas analysis by vacuum ultraviolet single photon ionization mass spectrometry. Journal of the Spectroscopical Society of Japan. 2008. 57. 3. 118-119
Development of Detailed Chemical Kinetics Model of hypergolic bipropellant. 2016. 56. 9-14
Lectures and oral presentations (51):
Computational Fluid Dynamics study of Hydrazine Droplets Combustion
(The 59th Symposium (Japanese) on Combustion 2021)
Theoretical Study on the Hydrogen Abstraction Reaction from Hydrazine Derivatives by OH radical
(36th Symposium on Chemical Kinetics and Dynamics 2021)
Theoretical study of product-specific rate coefficients for TMMDA + NO2 reaction
(The Fifty-Eighth Symposium (Japanese) on Combustion 2020)
Detailed chemical kinetics model for Tetramethylethylenediamine / O2 combustion
(The Fifty-Eighth Symposium (Japanese) on Combustion 2020)
Theoretical Study on the Hydrogen Abstraction Reactions from Hydrazine Derivatives by Methyl Radical
(57th Symposium (Japanese) on Combustion 2019)
2000 - 2005 The University of Tokyo The Graduate School of Engineering Department of Chemical System Engineering
1998 - 2000 The University of Tokyo The Faculty of Engineering Department of Chemical System Engineering
1996 - 1998 The University of Tokyo College of Arts and Sciences
Professional career (2):
Master(Engineering) (The University of Tokyo)
PhD (The University of Tokyo)
Work history (3):
2015/04 - 現在 Meijo University Faculty of Science and Technology, Department of Vehicle and Mechanical Engineering Associate Professor
2008/07 - 2015/03 Nagoya University Graduate School of Engineering
2005/04 - 2008/06 The University of Tokyo Environmental Science Center
Awards (3):
2007 - 日本化学会第1回関東支部大会優秀講演賞
2006 - 第47回大気環境学会年会ベストポスター賞
2003 - 第19回化学反応討論会ベストポスター賞
Association Membership(s) (5):
Japan Society of Atmospheric Chemistry
, The Spectroscopical Society of Japan
, The Chemical Society of Japan
, The Japan Society for Aeronautical and Space Sciences
, Combustion Society of Japan