2013-2014: Aoyama Gakuin University, numerical research on detonation DDT 2014-present: Sophia University, Faculty of Science and Technology, Department of Engineering and Applied Science(研究テーマ) Rotating detonation engine for electricity generation - numerical and experimental study Hypersonic shock waves in CO2 and air medium Roughness influence on detonation initiation Conceptual aircraft design Morphing jet-flaps(共同・受託研究希望テーマ) Hypersonic shock waves (M>10) behavior in CO2 and air - experimental research Rotating detonation engine for electricity production
International Journal of Hydrogen Energy 43(18) 9094-9109 2018年5月 [査読有り]
To investigate the safety properties of high-pressure hydrogen discharge or leakage, an under-expanded hydrogen jet flow with a storage pressure of 82 MPa from a small jet orifice with a diameter of 0.2 mm is studied by three-dimensional (3D) nume...
Detonation in ducts is usually studied assuming adiabatic walls because of the high kinetic energy due to the incoming flow being supersonic. In the present work, numerical simulations of deflagration-to-detonation transition (DDT) using a detaile...
E. Dzieminska   M. Fukuda   A. K. Hayashi   E. Yamada   
COMBUSTION SCIENCE AND TECHNOLOGY 184(10-11) 1608-1615 2012年 [査読有り]
Experiments concerning a fast flame have been performed by many researchers, but it is impossible to observe some phenomena in the experimental frames only. The aim of this study is to show the numerical analysis of the fast flame that leads to de...