International conference

 

[1] Mizukaki, T., F. Iwasaki, M. Mori and D. Numata (2021). Four-dimensional detection of high-speed pressure and deformation given by blast loading inside a detonation-driven blast simulator. 5th International Forum on Blast Injury Countermeasures. Online: 20.

 

[2] Wang, F., D. Aoyama, T. Mizukaki and K. Ohtani (2021). Three-dimensional visualization of shock waves using background-oriented schlieren with light field technique. ICFD2021. Sendai, Miyagi.

 

[3] Wang, F., T. Mizukaki and S. Matsuyama (2022). NUMERICAL ANALYSIS OF THE DETONATION WAVE PROPAGATION IN A LINEARIZED ROTATING DETONATION ENGINE. The 32nd International Symposium on Transport Phenomena. Online.

 

[4] Hayashi, A. K., K. Ishii, T. Watanabe, N. Tsuboi, K. Ozawa, N. Jourdaine, E. Dzieminska, X. Tang, T. Obara, S. Maeda and T. Mizukaki (2021). Experimental and Numerical Study on Disc-RDE: Flow Structure and its Performances. AIAA Scitech 2021 Forum, American Institute of Aeronautics and Astronautics.

 

[5] Mizukaki, T., F. Iwasaki, M. Kojima, H. Kawashima, S. Matsuyama, K. Iwata, Y. Nunome and H. Tanno (2021). "Flow Visualization inside a Rotating Detonation Engine near Injection Nozzles Using Point-Diffraction Interferometry." AIAA Scitech 2021 Forum.

 

[6] Iwasaki, F. and T. Mizukaki (2020). Visualization of Detonation Waves Propagating Inside a Rotating-Detonation Rocket Engine by using Diffraction Interferometry. ROUND TABLE ON SCIENCE AND TECHNOLOGY BETWEEN MOSCOW STATE UNIVERSITY AND TOKAI UNIVERSITY. Web.

     

[7] Iwasaki, F., T. Mizukaki, M. Kojima, H. Kawashima, S. Matsuyama, K. Iwata, Y. Nunome and H. Tanno (2020). Visualization of Detonation Waves Propagating inside a Rotating-Detonation Rocket Engine by using Point-Diffraction Interferometry. The 31st International Symposium on Transport Phenomena. Web.

     

[8] Mizukaki, T. (2020). Preliminary experiments for visualization of detonation waves propagating inside a rotating-detonation rocket engine by using point-diffraction interferometry. ROUND TABLE ON SCIENCE AND TECHNOLOGY BETWEEN MOSCOW STATE UNIVERSITY AND TOKAI UNIVERSITY. Web.

     

[9] Wang, F. and T. Mizukaki (2020). Numerical Analysis of Detonation Structure by using CHARIOT. ROUND TABLE ON SCIENCE AND TECHNOLOGY BETWEEN MOSCOW STATE UNIVERSITY AND TOKAI UNIVERSIT. Web.

 

[10]   Wang, F., T. Mizukaki and S. Matsuyama (2020). Numerical Analysis of Detonation Structure by using CHARIOT. The 31st International Symposium on Transport Phenomena. Web.

     

[11]   Wang, F., Y. Yoshitomi, F. Iwasaki, T. Mizukaki and K. Ohtani (2020). Flight Attitude Stabilizing by Side Jet Generated by Detached Shock Pulsation. The Twentieth International Symposium on Advanced Fluid Information. Web: 34-35.

 

[12]   Hayashi, K., N. Tsuboi, K. Ozawa, T. Watanabe, N. H. Jourdaine, K. Ishii, H. Kawana, W. Kuwata, K. Ohno, T. Obara, S. Maeda, E. Dzieminska, X. Tang and T. Mizukaki (2020). Recent Experimental and Numerical Study on Disc-Type RDEs. AIAA SciTech. Orland, Florida.

     

[13]   Matsuyama, S. and T. Mizukaki (2020). Large-Eddy Simulation of a Non-premixed Rotating Detonation Combustor. AIAA SciTech. Orland, Florida.

     

[14]   Mizukaki, T., D. Numata, F. Iwasaki, M. Mori, M. Kojima, H. Kawashima, S. Matsuyama and H. Tanno (2020). Visualization of detonation waves propagating inside a rotating-detonation rocket engine by using point-diffraction interferometry. AIAA SciTech2020. Orland, Florida.

 

[15]   Haruhiro Kawana, Wataru Kurata, Kanta Ohno, Kazuhiro Ishii, A. Koichi Hayashi, Nobuyuki Tsuboi, Kohei Ozawa, Tetsuro Obara, Shinichi Maeda, Edyta Dzieminska and Toshiharu Mizukaki (2019). A Study on Operating Conditions of Disk-Type Rotating Detonation Engine. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems. Peking University, Beijing.

 

[16]   Kojima, M., H. Kawashima, H. Tanno, S. Matsuyama and T. Mizukaki (2019). Experimental Study of Rotating Detonation Rocket Engine at JAXA. 32nd International Synpodium on Shock Waves. Singappore, Singappore.

     

[17]   Mizukaki, T., A. Kato, M. Mori, Y. Sekine and D. Saitoh (2019). Fluid Dynamical Evaluation of Pressure History of Blast Simulator at National Defense Medical College. IFBIC2019. Mclean, VA.

     

[18]   Mizukaki, T., A. Kato, M. Mori, Y. Sekine and D. Saitoh (2019). 5-cm-by-5-cm Detonation-Driven Blast Simulator for Fluid Dynamic Research on Blast Injury. IFBIC2019. McLean, VA.