COMPLETE LIST OF PUBLICATIONS
Reviewed Journal-Papers
1. Eisuke Yamada, Naoki Kitabayashi, A. Koichi Hayashi, Nobuyuki Tsuboi,
“Mechanism of High Pressure Hydrogen Auto-ignition when Spouting into Air,”
International Journal of Hydrogen Energy, Vol. 36, No.3, pp.256-2566, (2011, Feb.)
2. Makoto Asahara, Nobuyuki Tsuboi, A. Koichi Hayashi, Eisuke Yamada, (2010)
“Two-dimensional simulation on propagation mechanism of H2/O2 cylindrical
detonation with a detailed reaction model –Influence of initial energy and
propagation mechanism–,” Combustion, Science and Technology, Vol.182, Issue 11 &
12, pp.1884-1900.
3. Takayuki Yamada, A. Koichi Hayashi, Eisuke Yamada, Nobuyuki Tsuboi, Venkat E.
Tangirala, Toshi Fujiwara, (2010) “Detonation limit thresholds in H2/O2 rotating
detonation engine,” Combustion, Science and Technology, Vol.182, Issue 11 & 12,
1901-1914.
4. 坪井 伸幸, 阿達 聡, 林 光一, 山田 英助, 内田 正宏, 藤森 俊郎, 須田俊之, “90°曲管
における H2/O2 デトネーションの流体力学的効果に関する数値解析，”
日本燃焼学会誌，
第 52 巻 161 号(2010 年)213-223．
Tsuboi, Nobuyuki, Adachi, Satoshi, Hayashi, A.Koichi, Yamada, Eisuke, Uchida, Masahiro,
Fujimori, Toshirou, and Suda, Toshiyuki, “Numerical analysis of fluid dynamic effects on H2/O2
detonation in 90-degrees bent pipe,” Journal of the Combustion Society of Japan, Vol.52, No.161
(2010) 213-223.
5. Tsuboi, N., Daimon, Y., Hayashi, A.K., “Numerical Simulation of a Continuous Spinning
Detonation in a Circular Tube,” Deflagrative and Detonative Combustion, Torus Press (2010),
p.247-256.
6. Kitano, S., Sato, H., Hayashi, A.K., Tangirala, V., Tsuboi, N., “Development of Micro-Pulse
Detonation Engine and its Performance Evaluation,” Deflagrative and Detonative Combustion,
Torus Press (2010), p.373-379.
7. 木村 勇一朗, 坪井 伸幸, 林 光一, 山田 英助，
“排気ノズルを有するパルスデトネーシ
ョンエンジンの数値解析による推力性能評価，第 1 報：詳細反応モデルによる基本性
能の評価，
”日本航空宇宙学会論文集，Vol. 58 (2010) , No. 675，pp.91-99.
Yuichirou Kimura, Nobuyuki Tsuboi, A. Koichi Hayashi, and Eisuke Yamada,
“Numerical Study and Performance Evaluation for Pulse Detonation Engine with
Exaust Nozzle (1st report: Estimation on Performance using a Detailed Reaction
Model),” Journal of the Japan Society for Aeronautical Space Science, to appear (in
Japanese)
8. Youhi Morii, Nobuyuki Tsuboi, Mitsuo Koshi, Hiroyuki Ogawa, A. Koichi Hayashi,
and Taro Shimizu, “The determination of the third body efficiencies for the
H+O2+M=HO2+M reaction (M=Ar, H2O),” Sci. Tech. Energetic Materials, Vol. 70,
No.5, 117-121, 2009.
9. Toshio Mogi, Yuji Wada, Yuji Ogata, and A. Koichi Hayashi, “Self-ignition and flame
propagation of high-pressure hydrogen jet during sudden discharge from a pipe,” Int.
J. of Hydrogen Energy , 34, 14, pp. 5810-5816, 2009. (Impact Factor 3.452)
10.
Makoto Asahara, Nobuyuki Tsuboi, A. Koichi Hayashi, Eisuke Yamada,
“Numerical study on propagation of cylindrical detonation,” Science and Technology
of Energetic Materials, Vol.70, No.2, 49-52, 2009.
1. Masuda, N., Tangirala,V., Benkiewicz,K., Hayashi, A.K., Tsuboi, N., “Numerical Simulation of
JP10/Air Two-Phase Detonation,” Advancements in Energetic Materials and Chemical
Propulsion, Begell House, Inc., pp.423-438, 2009.
2. N. Tsuboi, A.K. Hayashi, M. Koshi, “Energy release effect of mixture on single spinning
detonation structure,” Proc. of Combustion Institute 32, Elsevier Inc., pp.2405-2412, 2008.
3. E. Yamada, S. Watanabe, A.K. Hayashi, N. Tsuboi, “Numerical analysis on autoignition of a
high-pressure hydrogen jet spouting from a tube,” Proc. of Combustion Institute 32, Elsevier
Inc., pp.2363-2369, 2008.
4. S. Kitano, M. Fukao, A. Susa, N. Tsuboi, A.K. Hayashi, M. Koshi, “Spinning detonation and
velocity deficit in small diameter tubes,” Proc. of Combustion Institute 32, 2008 (in print).
5. S. Tachibana, J. Yamashita, L. Zimmer, K. Suzuki, A.K. Hayashi, “Dynamic behavior of a
freely-propagating turbulent premixed flame under global stretch-rate oscillations,” Proc. of
Combustion Institute 32, Elsevier Inc., pp.1795-1802, 2008.
6. N. Tsuboi, Y. Daimon, A.K. Hayashi, “Numerical simulation of spinning and two-headed
detonation in a circular tube,” Book of 7th Int. Symp. on Special Topics in Chemical Propulsion,
2008(in print).
7. N. Tsuboi, M. Asahara, and A.K. Hayashi, “Effects of initial pressure on single spinning
detonation in a square tube,” Science and Technology of Energetic Materials, Vol.69, No.6,
pp.173-176, 2008.
8. K. Aizawa, S. Yoshino, T. Mogi, H. Shiina, Y. Ogata, Y. Wada, A.K. Hayashi, “Study of
detonation initiation in hydrogen/air flow,” Shock Waves, Vol.18, No.4, 2008, 299-305.
9. N. Tsuboi, Y. Daimon, A.K. Hayashi, ”Three-dimensional numerical simulation of detonations
in coaxial tubes,” Shock Waves, Vol.18, No.5, 2008, pp.379-392.
10. Kaori Ohminami, Hiroyuki Ogawa, A. Koichi Hayashi, “Construction of Reduced Reaction
Mechanism of Hidragyn/NitrogenOxide,” Science and Technology of Energetic materials,
Vol.69, No.1, pp.1-7, 2008(in Japanese).
11. A.K. Hayashi, H. Yanai, H. Sato, “Numerical and experimental study of nonequilibrium
radiation behind hypersonic shock waves,” Computational Fluid Dynamics Journal, 16(1):10,
April 2007, pp.83-90.
12. Tsuboi, N., Eto, K., Hayashi, A.K., “Numerical Simulation of Spinning Detonation in Square
Tube,” Shock Waves, submitted (2007)
13. Tsuboi, N., Daimon, Y., Hayashi, A.K., “Three-dimensional Numerical Simulation of
Detonations in Coaxial Tubes,” Shock Waves, submitted (2007)
14. Tsuboi, N., Tangirala, V.E., Hayashi, A.K., “Performance of a Pulse Detonation Engine under
Flight Conditions,” AIAA Journal, submitted (2007)
15. Tsuboi, N. and Hayashi, A.K., “Numerical Simulation of Detonation Phenomena,” Nagare, Japan
Society of Fluid Mechanics, in print in 2007. (in Japanese)
16. Tsuboi, N., Daimon, Y., Hayashi, A.K., “Numerical Simulation of a Continuous Spinning
Detonation in a Circular Tube,” Advances in Pulsed and Continuous Detonations, Torus Press,
accepted（2007）
17. Hayashi, A.K., Tsuboi, N., Tangilaram, V.E., Dean, A.J., “System-level Performance of a
Multitube Pulse Detonation Engine,” Advances in Pulsed and Continuous Detonations, Torus
Press, accepted（2007）
18. Kitano, S., Hayashi, A.K., Tsuboi,N., “Development of Micro-PDE and its Performance
Evaluation,” Advances in Pulsed and Continuous Detonations, Torus Press, accepted（2007）
19. N. Tsuboi, K. Eto, and A.K. Hayashi, “Detailed structure of spinning detonation in a circular
tube,” Combustion and Flame, Vol.149, pp.144-161, 2007.
20. Sato, H., Nishidome, C., Kajiwara, I., Hayashi, A.K., “Design of Active Control System for
Combustion Instability Using H2 Algorithm,” Int. J. Vehicle Design, INDERSCIENCE, 2006, in
print.
21. Tachibana, S., Zimmer, L., Kurosawa, Y., Suzuki, K., Sato, H., Hayashi, A.K., Nishidome, C.,
Kajiwara, I., “Active Control of Combution Oscillations in a Lean Premixed Gas-Turbine
Combustor,” Int. J. Vehicle Design, INDERSCIENCE, 2006, in print.
22. Tsuboi, N. and Hayashi, A.K. “Numerical Study on Spin Detonation,” Journal of Proc. of 31st
International Symposium on Combustion, The Combustion Institute, Vol.31, 2389-2396, 2007.
23. Shinsuke Tajiri, Michihisa Tsutahara, A. Koichi Hayashi, Masahiko Sakamoto, Keiryou
Higashi,Fumio Kameyama, “Study on Ship Propulsion Nozzle Using Compression Waves
Generating at the combustion of Propane/Air Mixture as a Direct Driving Source,” Paper No.
06-0417, JSME Journal (B), Vol.73, No.725, pp.190-197, 2007. (in Japanese).
24. Tsuboi, N., Eto, K., Hayashi, A.K., “Three-Dimensional Chapman-Jouguet Detonation in a
Rectangular Tube-Effect of Cross-Section Area,” Confined Detonations and Pulse Detonation
Engines, Torus Press, (Accepted for publication)
25. Hayashi, A.K., Shimada, H., Kenmoku, Y., and Sato, H. “Detailed Mechanism of Flame Jet
Ignition in Pulse Detonation Engines,” Confined Detonations and Pulse Detonation Engines,
Torus Press, (Accepted for publication)
26. Benkiewicz, K. and Hayashi, A.K. “One-dimensional parametric studies of an aluminum-dust
combustion model for numerical simulations of detonation waves,” AIAA JOURNAL, Vol.44,
NO.3, pp.608-619, 2006.
27. Liu, Y.-F., Sato, H., Tsuboi, N., Higashino, F., and Hayashi, A.K. (2006.2) Numerical simulation
on hydrogen fuel jetting from high pressure tank. Sci. Tech. Engrg. Mater., Japan Explosive
Society, Vol.67, No.1, pp.7-11, 2006.
28. Tachibana, S., Zimmer, L., Kurosawa, Y., Suzuki, K., Sato, H., Hayashi, A.K., Nishidome, C.,
Kajiwara, I. (2006) Active control of combustion oscillations in a lean premixed gas-turbine
combustor, Int. J. of Vehicle Design, Inder Science. (In Press)
29. Sato, H., Ikame, M., Harumi, K., Kishi, T., Hiraoka, K., Oka, H., Hayashi, A.K., and Ogawa, S.
(2005), Active instability control of thermoacoustic oscillation in premixed gas turbine
combustors, JSME International Journal Series B, Vol.48, No. 2, 2005, pp.328-333.
30. Keitaro ETO, Nobuyuki TSUBOI, A. Koichi HAYASHI, “Numerical Study on
Three-Dimensional C-J Detonation Waves: Detailed Propagating Mechanism and Existence of
OH radical,” Journal of Proc. of 30th International Symposium on Combustion, Elsevier, 30
(2005) 1907-1913.
31. Hiroyuki SATO, A. Koichi HAYASHI, Satoru OGAWA, “Combustion Control on Acoustical
Instability of Methane/Air Premixed Swirl Flame,” Journal of Japanese Combustion Institute,
Vol. 46, No.138, pp.251-259, 2004. (in Japanese)
32. Hiroyuki Sato，Nobuyuki Tsuboi，A. Koichi Hayashi, John H. S. Lee, “Experimental and
Numerical Studies on Detonation Wave Propagating in a Rectangular Tube with Obstacles”,
Science and Technology of Energetic Materials，vol.65, no.5, pp155-160, 2004
33. Hiroyuki SATO, Yasuhiro KENMOKU, Hidetoshi SHIMADA, and A. Koichi
HAYASHI, ”Application of Flame Jet Ignition on Pulse Detonation Engine Development,”
Science and Technology of Energetic Materials, vol.65, no.5, pp.149-154, 2004.
34. N. Tsuboi, K. Fujii, Y. Kenmoku, A.K. Hayashi, “Experimental and Numerical Estimation of
Pulse Detonation Engine Performance,” Confined Detonations and Pulse Detonation Engines,
Torus Press, pp.249-260, 2003.
35. A.K. Hayashi, H. Sato, Y. Yamazaki, “Fluid Dynamic Control of Nonpremixed Hydrogen Lifted
Jet Flames,” Combustion and Noise Control, edited by G.D. Roy, pp.147-149, 2003.
36. H. Sato, T. Endo, Y. Yasunami, A.K. Hayashi, S. Ogawa, M. Ikame, T. Kishi, K. Hiraoka, K.
Harumi, H. Oka, “Active Control of Acoustic Instability for Premixed Swirl Flames,”
Combustion and Noise Control, edited by G.D. Roy, pp.130-134, 2003.
37. K. Benkiewicz, A.K. Hayashi, “Two-dimensional numerical simulations of multi-headed
detonations in oxygen-aluminum mixtures using an adaptive mesh refinement,” Shock Waves,
Vol. 12, No. 5, pp. 385-402, 2003.
38. A.K. Hayashi, H. Sato, S. Nakano, N. Saito, C. Liao, T. Tsuruda, “Water Vapor Suppression to
Tubular Flame,” Journal of Physics IV, Vol.12, No.7, pp.291-298, 2002.
39. A.K. Hayashi, H. Sato, Y. Yamazaki, T. Mizuno, S. Ogawa, T. Yamamoto, S. Kagiya, T. Motegi,
“Active Control of Combustion Oscillations for Premixed Combustion Systems,” Journal of
Physics IV, Vol.12, No.7, pp.281-290, 2002.
40. A.K. Hayashi, Y. Yamazaki, S. Ogawa, T. Yamamoto, T. Mizuno, S. Kagiya, T. Motegi, “Study
on Active Control of Combustion Oscillations for Lean Premixed Combustion Systems,” Invited
Lecture on Smart Control of Turbulence, Center for Smart Control of Turbulence, 2002.
41. Takashi, Ito, Kozo Fujii, A. Koichi Hayashi, “Computations of Axisymmetric Plug-Nozzle
Flowfields: Flow Structures and Thrust Performance,” Journal of Propulsion and Power, AIAA,
Vol.18, No.2, pp.254-260, 2002.
42. K. Benkiewicz, A.K. Hayashi, “Aluminum dust ignition behind reflected shock wave:
two-dimensional simulations,” Fluid Dynamics Research 30, pp.269-292, 2002.
43. A. Koichi HAYASHI, Seiji KATO, Nobuyuki TSUBOI, “Numerical Analysis of
Three-Dimensional Detonation,” Journal of Applied Plasma Science, Institute of Applied Plasma
Science, Vol.9, pp.149-153, 2001. (in Japanese)
44. Hayashi, A.K., Endo, T., “3D LIF Measurement of High Temperature Hydrogen Jet Flame,”
Advances in Applied Plasma Science, Vol. 3, pp.343-348, 2001.
45. Tsuboi, N., Hayashi, A.K., Matsumoto, Y., “Structure of Cornstarch-Oxygen Two-Phase
Detonation in a Circular Tube,” Chemical Physics Report (The Journal of the Russian Academy
of Sciences), Vol.20, No.6, pp.55-66, 2001.
46. Takeshi Miyamoto, Satoshi Tsurushima, Naoki Shimazaki, Akira Harada, KakuSasaki, A. Koichi
Hayashi, Yasuo Asami, Yuzo Aoyagi, “Modeling of Ignition and Combustion on Early Direct
Injection Compression Ignition Engine,” Journal of JSME(B), Vol.67, No.653, pp.249-256,
2001.
47. Benkiewicz, K., Hayashi, A.K., “One-dimensional numerical modeling of gas-solid mixtures
ignition using continuum mixture theory with “compressible solid” and “non-compressible solid”
sub-models,” Archivum Combustionis, Vol.21, No.1, pp.27-56, 2001.
48. H. Shimizu, M. Tsuzuki, Y. Yamazaki, A.K. Hayashi, “Experimental and numerical simulation
on methane flame quenching by water mist,” J. of Loss Prevention in the Precess Industries,
Elsevier, Sciences, Vol. 14, pp.603-608, 2001.
49. Y. Yamazaki, A.K. Hayashi, M. Tsuzuki, “Chemically non-equilibrium analysis on flame
quenching phenomena by mist water for various hydrocarbon flames,” Archivum Combustionis,
Vol. 21, No. 2, pp.143-152, 2001.
50. N. Tsuboi, A.K. Hayashi, Y. Matsumoto, “Three-dimensional structure of cornstarch-oxygen
two-phase detonation in a circular tube,” Archivum Combustionis, Vol. 21, No. 2, pp.101-106,
2001.
51. H. Shimizu, M. Tsuzuki, Y. Yamazaki, A.K. Hayashi, “Experiments and numerical simulation on
methane flame quenching by water mist,” Journal of Loss Prevention in the Process Industries,
Elsevier, Vol. 14, pp. 603-608, 2001.
52. T. Matsuda, T. Sato, K. Benkiewicz, A.K. Hayashi, „Ignition properties of cornstarch dust-air
mixture,” Archivum Combustionis, Vol. 21, No. 2, pp.83-91, 2001.
53. K. Benkiewicz, A.K. Hayashi, “One-dimensional numerical modeling of gas-solid mixtures
ignition using continuum mixture theory with “compressible solid” and “non-compressible solid”
sub-models,” Archivum Combustionis, Vol. 21, No. 1, pp.27-56, 2001.
54. K. Benkiewicz, A.K. Hayashi, “Application of “compressible solid” and “non-compressible solid”
sub-models for 1-D numerical simulation of shock and combustion waves propagation in
aluminum-air mixtures,” Chemical Physics Reports, Vol. 20, No. 5, pp.48-58, 2001.
55. A. Koichi Hayashi, Yasunari Mikutsu, and Norio Araki, “Cell Structure of Hydrogen/Air
Overdriven Detonation,” Journal of Visualization Society, Japan, The Visualization Society of
Japan, Vol. 20, No. 79, pp. 9-14, 2000.
56. N. Tsuboi, A.K. Hayashi, Y. Matsumoto, “Three-dimensional parallel simulation of
cornstarch-oxygen two-phase detonation,” Shock Waves, Vol. 10, pp. 277-285, 2000.
57. A.K. Hayashi, M. Haba, N. Endo, “High Temperature Jet Impingement on material Surfaces,”
Advances in Applied Plasma Science, Vol. 2, pp.73-78, 1999.
58. A.K. Hayashi, Y. Niikura, “Numerical Simulation of Dynamic Interaction between Two
fuel-Droplets in a High Temperature Air Flow Using a CIP Method,” Computational Fluid
Dynamics Journal, Vol. 8, No. 1, 1999.
59. A. Koichi Hayashi, Hideyuki Ito, Naomasa Uchida, Motoi Suetake, Yasushi Watanabe, Hidetoshi
Karasawa, “Ignition Mechanism of Jet Ignition through Two Rooms,” Journal of Combustion
Science and Technology, 6 Supplement, pp. 105-112, 1999. (in Japanese)
60. Nobuyuki Tsuboi, A. Koichi Hayashi, Toshi Fujiwara, Kazuo Arashi, Masaru Kodama,
“Numerical Analysis and Experiments on Supersonic Jet Impinging to a Flat Plate,” Journal of
the Japan Society for Aeronautical and Space Sciences, Vol.46, No.536, pp. 485-496, 1998. (in
Japanese)
61. Manabu Hishida, Toshi Fujiwara, A. Koichi Hayashi, “Fluid Dynamic Study on Ignition by
Combustible Gas Jets Spouting from a Sub-Combustion Chamber,” Journal of the Japan Society
for Aeronautical and Space Sciences, Vol. 45, No.523, pp. 426-434, 1997. (in Japanese)
62. Yukio Mori, Norihiko Yoshikawa, A. Koichi Hayashi,” Volumetric Ignition Induced by a
BurnedGas Jet,” Journal of Combustion Science and Technology, Vol. 5, pp. 103-111, 1997. (in
Japanese)
63. H. Ogawa, T. fujiwara, A.K. Hayashi, “Novel Features of Magneto-Hydrodynamic Shock Wave
Reflection from Perfectly-Conducting Wedge: Unsteady Reflection and β Dependence,” Japan
Society for Aeronautical and Space Science Transactions of the Japan Society for Aeronautical
and Space Science 38, pp.122, 1996.
64. H. Ogawa, T. Fujiwara, A.K. Hayashi, “Shock polar analyses of regular reflections in
magnetohydrodynamics,” Physics of Plasma 2, pp. 3282-3295, 1995.
65. Manabu Hishida, Toshi Fujiwara, A. Koichi Hayashi,” Flame Structure and its Behavior of Pulse
Jet Combustion,” Journal of Combustion Science and Technology, Vol.3 No.2 (1995) 111-120
(in Japanese).
66. Mitsumasa Makida, A. Koichi Hayashi, Toshi Fujiwara, “Numerical Analysis of Behavior of
Fuel Particles in Combustion Spray,” Japan Society for Aeronautical and Space Science
Transactions of the Japan Society for Aeronautical and Space Science, Vol.43, No.498, pp.
390-399, 1995. (in Japanese)
67. Hayashi, A.K., Hishida, M., “Pulsed Jet Ignition Modeling with a Full Chemistry,” Turbulence
and Molecular Processes in Combustion, Elsevier, pp. 199-220, 1993.
68. Sileem, A.A., Kassoy, D.R., Hayashi, A.K., “Thermally Initiated Detonation through
Deflagration to Detonation Transition,” Proc. Royal Soc. London, A435, 1895, pp. 459-482,
1992.
69. Inoue, Y., Hayashi, A.K., Fujiwara, T., Miyake, S., Katsurahara, T., “Numerical Analysis of RCS
Jet in Hypersonic Flights,” SAE Trans. 100, 1, 2, 912063, pp.2263-2270, 1991.
70. Tsuboi, N., Hayashi, A.K., Fujiwara, T., Arashi, T., Kodama, M., “Numerical Simulation of a
Supersonic Jet Impingement on a Ground,” SAE Trans. 100, 1. 2, 912014, pp.2168-2180, 1991.
71. Fumio Takayama, Shiro Taki, Toshi Fujiwara, A. Koichi Hayashi, Akira Sakurai, “Numerical
Analysis on Spouting Hydrogen Jet with Ignition Combustion,” Nagare, Vol.11, pp. 24-35, 1991.
(in Japanese)
72. Ohta, Y., Hayashi, A.K., Fujiwara, T., Takahashi, H., “N-Butane Ignition in a Wide Range of
Temperature,” Prog. in Astro. and Aero. 113, AIAA, pp.225-238, 1988.
73. Takayama, F., Taki, S., Hayashi, A.K., Fujiwara, T., Sakurai, A., “Numerical Analysis of Ignition
of Hydrogen Spurted into Air,” Prog. in Astro. and Aero. 105, AIAA, pp.25-37, 1985.
74. Hayashi, A.K., Branch, M.C., “Oblique Shock Waves in Two-Phase Flow,” Prog. in Astro. and
Aero. 87, AIAA, pp.22, 1983.
75. Branch, M.C., Hayashi, A.K., “Thermodynamic Derivatives,” Int. J. Mech. Engrg., Edu. 12, No.
1, pp.25, 1983.
76. Hayashi, A.K., Branch, M.C., “Concentration, Velocity, and Particle Size Measurements in
Gas-Solid Two-Phase Jets,” Journal of Energy 4, 5, pp.193-198, 1980.
77. A. Koichi Hayashi, Toshi Fujiwara, “Collision of Triple Shocks,” Research on Fluid Thermal
Engineering, Vol.10, No.1, pp. 65-81, 1975. (in Japanese)
Reviewed International Conference Papers
1. T. Yamada, A.K. Hayashi, N. Tsuboi, E. Yamada, V. Tangirala, T. Fujiwara, “Numerical Analysis
of Threshold of Limit Detonation in Rotating Detonation Engine,” AIAA-2010-0153, 48th AIAA
Aerospace Science Meeting, Orlando, Florida, USA, 4-7 January, 2010.
2. H. Nagashima, T. Tokumasu, S. Suda, N. Tsuboi, A.K. Hayashi, “Reliability of Classical
Molecular Dynamics Method to Thermodynamic Properties of Hydrogen,” AIAA-2010-0994,
48th AIAA Aerospace Science Meeting, Orlando, Florida, USA, 4-7 January, 2010.
3. N. Kitabayashi, E. Yamada, A.K. Hayashi, N. Tsuboi, Y. Wada, “Numerical analysis on
auto-ignition of high pressure hydrogen flow in a tube at the pressure of 40MPa,” W5P122, 33rd
International Symposium on Combustion, Tsinghua University, Beijing, China, 1-6 August,
2010.
4. Y. Morii, M. Asahara, N. Tsuboi, A.K. Hayashi, M. Koshi, H. Ogawa, S. Tokudome, “The
Effects of the Schemes in Inviscid Flux on Spinning Detonation in a Round Tube,” ISH101, 8th
International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions,
Yokohama, Japan, September 5-10, 2010.
5. T. Shimada, A.K. Hayashi, E. Yamada, N. Tsuboi, “Numerical simulation of a bio-fuel/air
two-phase detonation –Detonation propagation mechanism using ethanol-,” ISH103, 8th
International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions,
Yokohama, Japan, September 5-10, 2010.
6. M. Asahara, T. Tsuboi, A.K. Hayashi, E. Yamada, “Computational Study on Cell Bifurcation in
Two-Dimensional Cylindrical Detonation Using AUSMDV Scheme,” ISH105, 8th International
Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions, Yokohama, Japan,
September 5-10, 2010.
7. N. Tsuboi, A.K. Hayashi, M. Uchida, T. Fujimori, “Three-Dimensional Simulation of H2/O2
Detonation in a Round Bent Tube,” ISH106, 8th International Symposium on Hazards,
Prevention, and Mitigation of Industrial Explosions, Yokohama, Japan, September 5-10, 2010.
8. E. Dzieminska, M. Fukuda, A.K. Hayashi, E. Yamada, N. Tsuboi, “Flame Propagation in
Boundary Layer during a DDT process,” 2nd International Workshop on Detonation /Detonation
Engine, Aoyama Gakuin University, Kanagawa, Japan, Sept. 12, 2010.
9. N. Tsuboi, Y. Morii, M. Asahara, A.K. Hayashi, “Numerical Simulations on Fine
Crosshatchings near Detonation Fronts,” 2nd International Workshop on Detonation /Detonation
Engine, Aoyama Gakuin University, Kanagawa, Japan, Sept. 12, 2010.
10. N. Kitabayashi, E. Yamada, A.K. Hayashi, N. Tsuboi, Y. Wada, “Numerical analysis on
auto-ignition of high pressure hydrogen flow in a tube at the pressure of 40MPa,” 33rd
International Symposium on Combustion, Tsinghua University, Beijing, China, 2010.
11. N. Tsuboi, A.K. Hayashi, M. Uchida, T. Fujimori, “Three-dimensional simulations of H2/O2
detonation in a round bent tube,” 8th Int. Symp. on Hazards, Prevention, and Mitigation of
Industrial Explosions, ISH106, Yokohama,Japan, Sept. 5-10, 2010.
12. M. Asahara, N. Tsuboi, A.K. Hayashi, E. Yamada, “Computational study on cell bifurcation in
two-dimensional cylindrical detonation using AUSMDV scheme,” 8th Int. Symp. on Hazards,
Prevention, and Mitigation of Industrial Explosions, ISH105, Yokohama,Japan, Sept. 5-10,
2010.
13. Y. Morii, M. Asahara, N. Tsuboi, A.K. Hayashi, M. Koshi, H. Ogawa, S.Tokudome, “The effects
of the schemes in inviscid flux on spinning detonation in a round tube,” 8th Int. Symp. on
Hazards, Prevention, and Mitigation of Industrial Explosions, ISH101, Yokohama,Japan, Sept.
5-10, 2010.
14. T. Shimada, A.K. Hayashi, E. Yamada, N. Tsuboi, “Numerical simulation of a bio-fuel/air
two-phase detonation –propagation mechanism using ethanol-,” 8th Int. Symp. on Hazards,
Prevention, and Mitigation of Industrial Explosions, ISH103, Yokohama,Japan, Sept. 5-10,
2010.
15. E. Dzieminska, M. Fukuda, A.K. Hayashi, E. Yamada, N. Tsuboi, “Flame Propagation in
Boundary
Layer
during
a
DDT
process,”
2nd
International
Workshop
on
Detonation/Detonation Engine, Aoyama Gakuin University, Kanagawa, Japan, Sept.
11, 2010.
16. N. Tsuboi, Y. Morii, M. Asahara, A.K. Hayashi, “Numerical Simulations on Fine
2nd International Workshop on
Detonation/Detonation Engine, Aoyama Gakuin University, Kanagawa, Japan, Sept.
11, 2010.
Crosshatchings
near
Detonation
Fronts,”
17.
18. A. Koichi Hayashi, Yoichiro Kimura, Takayuki Yamada, Eisuke Yamada, Jan Kindracki, Edyta
Dzieminska, Piotr Wolanski, Nobuyuki Tsuboi, Venkat E. Tangirala, Toshi Fujiwara, “Sensitivity
Analysis of Rotating Detonation Engine with a Detailed Reaction Model,” AIAA Paper
No.2009-0633, 2009.
19. S. Adachi, A.K. Hayashi, E. Yamada, N. Tsuboiu, Y. Morii, “Effects of Chemical Reaction
Model on H2/O2 Detonation at High Pressures,” AIAA Paper No.2009-0441, 2009.
20. K. Yamada, D. Akita, T. Abe, K. Suzuki, M. Koyama, N. Honma, M. Yuda, Y. Maehara, O.
Imamura, T. Watanuki, Y. Kimura, A.K. Hayashi, H. Makino. “Research and development of
inflatable membrane aeroshell for atmospheric-entry capsule,” AIAA Paper No.2008-0920,
2008.
21. A.K. Hayashi, “Time for liquid nitrogen car and compressed air vehicle!,” International
Conference on Global Innovation EcoSystem Workshop, Japan Science and Technology Agency,
March 14, 2008.
22. J. Kindracki, A. Kobier, P. Wolanski, E. Dzieminska, A.K. Hayashi, “Experimental and
numerical calculation of rotating detonation in cylindrical channel in O2-H2 mixtures,”
ISEM2008, Funabori, Tokyo, Japan, April 24-25, 2008.
23. E. Yamada, N. Masuda, N. Tsuboi, A.K. Hayashi, “Numerical simulation of JP10/air two-phase
detonation,” ISEM2008, Funabori, Tokyo, Japan, April 24-25, 2008.
24. S. Kitano, A. Susa, N. Tsuboi, M. Koshi, E. Yamada, A.K. Hayashi, “Spin detonation in
hydrogen/oxygen mixture,” 1st International Workshop on Detonation/Detonation Engine,
Aoyama Gakuin University, Kanagawa, Japan, April 28, 2008.
25. M. Asahara, N. Tsuboi, A.K. Hayashi, E. Yamada, “Numerical study on propagation of spherical
detonation,” Proc. of ISTS2008, Hamamatsu, Japan, 2008.(CD)
26. K. Yamada, D. Akita, T. Abe, K. Suzuki, O. Imamura, M. Koyama, Y. Kimura, A.K. Hayashi,
“Study on low-ballistic-coefficient atmospheric-entry technology using flexible aeroshell,” Proc.
of ISTS2008, Hamamatsu, Japan,
27. T. Mogi, H. Shiina, T. Imamura, Y. Wada, A.K. Hayashi, “Ignition and flame propagation during
discharge of high-pressure hydrogen gas,” 7th ISHPMIE, St. Petersburg, Russia, July 7-11, 2008.
28. N. Tsuboi, A.K. Hayashi, M. Koshi, “Energy release effect of mixture on single spinning
detonation structure,” 32nd Int. Symp. on Combustion, MacGill University, Montreal, Canada,
Aug. 4-8, 2008 .
29. E. Yamada, S. Watanabe, A.K. Hayashi, N. Tsuboi, “Numerical analysis on autoignition of a
high-pressure hydrogen jet spouting from a tube,” 32nd Int. Symp. on Combustion, MacGill
University, Montreal, Canada, Aug. 4-8, 2008 .
30. S. Kitano, M. Fukao, A. Susa, N. Tsuboi, A.K. Hayashi, M. Koshi, “Spinning detonation and
velocity deficit in small diameter tubes,” 32nd Int. Symp. on Combustion, MacGill University,
Montreal, Canada, Aug. 4-8, 2008 .
31. S. Tachibana, J. Yamashita, L. Zimmer, K. Suzuki, A.K. Hayashi, “Dynamic behavior of a
freely-propagating turbulent premixed flame under global stretch-rate oscillations,” 32nd Int.
Symp. on Combustion, MacGill University, Montreal, Canada, Aug. 4-8, 2008 .
13. N.Tsuboi, A.K.Hayashi, “Numerical Simulation of Single Spinning and Two-headed Detonation
in a Circular Tube,” 7th International Symposium on Special Topics in Chemical Propulsion,
accepted, (2007)
14. Naonori Masuda, Krzysztof Benkiewicz, Venkat Tangirala, A. Koichi Hayashi, Nobuyuki Tsuboi,
“Numerical simulation of JP10/air two-phase detonation and its PDE performance,” 7th
International Symposium on Special Topics in Chemical Propulsion, accepted, (2007)
15. N.Tsuboi, M. Asahara, A.K.Hayashi, M. Koshi, “Effects of Detailed Chemical Reaction Model
on Detonation Simulations,” Proceedings of the 22nd International Symposium on Shock Waves,
accepted, (2007)
16. A. K. Hayashi, H. Morita, H. Sato, and K. Kontis, “Measurements of Shock waves around
Hypersonic Intake Flows,” Proceedings of the 22nd International Symposium on Shock Waves,
accepted, (2007)
17. H. Sato, Y. Tashiro, and A. K. Hayashi, “Development of Thermal Spray Detonation Gun using a
Pulse Detonation System.” Proceedings of the 22nd International Symposium on Shock Waves,
accepted, (2007)
18. D. Pinto, K. Aizawa, Y.F. Liu, H. Sato, A. K. Hayashi, and N. Tsuboi, “Auto-ignition of high
pressure hydrogen release,” 21th International Colloquium on the Dynamics of Explosions and
Reactive Systems, accepted (2007)
19. Keisuke Aizawa, Satoru Yoshino, Toshio Mogi, Hiroumi Shiina, Yuji Ogata, Yuji Wada, and A.
Koichi Hayashi, “Study on Detonation Initiation in Hydrogen/Air Flow,” 21st International
Colloquium on the Dynamics of Explosions and Reactive Systems, accepted (2007)
20. N.Tsuboi, Y.Daimon, A.K.Hayashi, “Shock Structure of Single Spinning and Two-headed
Detonations in a Circular Tube,” 21th International Colloquium on the Dynamics of
Explosions and Reactive Systems, accepted (2007)
21. N. Tsuboi, M. Asahara, S. Kitano, A. K. Hayashi, “Numerical and Experimental Study on Single
Spinning Detonation in a Square Tube,” 21th International Colloquium on the Dynamics of
Explosions and Reactive Systems, accepted (2007)
22. Y. Kimura, S. Kitano, H. Sato, A. K. Hayashi, N. Tsuboi, “Experimental Study on Exhaust
Nozzle Performance in H2/Air PDE,” 21th International Colloquium on the Dynamics of
Explosions and Reactive Systems, accepted (2007)
23. S. Kitano, Y. kimura, H. Sato, and A.K. Hayashi, “Micro-size pulse detonation engine
performance, AIAA 2007-0581, 45th AIAA Aerospace Science Meeting, Reno, Nevada, Jan. 8-11,
2007.
24. H. Adachi, H. Sato, and A.K. Hayashi, “Effect of a rifle-type obstacle on acceleration of
detonation transition in PDE,” AIAA 2007-1174, 45th AIAA Aerospace Science Meeting, Reno,
Nevada, Jan. 8-11, 2007.
25. N. Tsuboi, Y. Daimon, and A.K. Hayashi, “Numerical simulation of a detonation in a coaxial
tube,” AIAA 2007-0988, 45th AIAA Aerospace Science Meeting, Reno, Nevada, Jan. 8-11, 2007.
26. V.E. Tangirala, A.J. Dean, N. Tsuboi, and A.K. Hayashi, “Performance of a pulse detonation
engine under subsonic and supersonic flight conditions,” AIAA 2007-1245, 45th AIAA Aerospace
Science Meeting, Reno, Nevada, Jan. 8-11, 2007.
27. A. Koichi Hayashi, Shota Kitano, and Hiroyuki Sato, “Mini-pulse detonation engine
performance,” 2nd Mechanics Conference, Al-Farabi Kazakh National University, Almaty, Sep. 7,
2006
28. A. Koichi Hayashi, Hiroyuki Sato, Tomohiro Ide, and Takanobu Sawada, “Combustion control
of premixed swirl flame using additional injection, 10th Int. Workshop on Premixed Turbulent
Flames, Mainz, Germany, Aug. 12-13, 2006.
29. A.K. Hayashi, J. Misawa, Y.F. Liu, N. Tsuboi, and H. Sato, “Re-ignition of oxyhydrogen
detonation diluted with Ar behind a backward-facing step,” 31st Int. Symp. On Combustion, The
Combustion Institute, Heiderberg, Germany, August 2006.
30. A.K. Hayashi and K. Benkiewicz, “Multi-dimensional study on alminun-oxygen two-phase
detonation,” 5th ICPCD, Russian Academy of Sciences, Moscow, Russia, July 4-7, 2006 (Prenary
Lecture).
31. A.K. Hayashi, N. Tsuboi, V.E. Tangirala, and A.J. Dean, “System-level performance of a
multitube pulse detonation engine,” 5th ICPCD, Russian Academy of Sciences, Moscow, Russia,
July 4-7, 2006.
32. S. Kitano, H. Sato, A.K. Hayashi, V.E. Tangirala, and N. Tsuboi, “Development of micro-PDE
and its performance evaluation,” 5th ICPCD, Russian Academy of Sciences, Moscow, Russia, July
4-7, 2006
33. H. Jotaki, J. Misawa, A.K. Hayashi, and N. Tsuboi, “Study on detonation structure propagating
in a converging-diverging nozzle,”AIAA-2005-1177, Proc. of XVII Int. Symp. on Air Breathing
Engines (ISABE), Munich, Germany, Sep. 4-9, 2005, (CD-ROM).
34. A.K. Hayashi, H. Shimada, A. Adachi, and H. Sato, “Pulse detonation engine using hydrogen/air
mixture for a near practical model,” AIAA-2005-1051, Proc. of XVII Int. Symp. on Air Breathing
Engines (ISABE), Munich, Germany, Sep. 4-9, 2005, (CD-ROM)
35. Y.F. Liu, N. Tsuboi, H. Sato, F. Higashino, and A.K. Hayashi, “Direct numerical simulation on
hydrogen fuel jetting from high pressure tank,” Paper No. 122, 20th Int. Colloq. on Dynamics of
Explosions and Reactive Systems, Montreal, Canada, July 31-Aug. 5, 2005, (CD-ROM)
36. A.K. Hayashi, K. Eto, Y.F. Liu, N. Tsuboi, S. Shiokawa, H. Sato, and J.H.S. Lee,” Argon or
nitrogen diluted hydrogen/oxygen detonation in tube with obstacles,” Paper No. 186, 20th Int.
Colloq. on Dynamics of Explosions and Reactive Systems, Montreal, Canada, July 31-Aug. 5,
2005, (CD-ROM)
37. N. Tsuboi, K. Eto, and A.K. Hayashi, “Three-dimensional numerical simulation of H2/air
detonation in a circular tube: structure of spinning mode,” Paper No. 71, 20th Int. Colloq. on
Dynamics of Explosions and Reactive Systems, Montreal, Canada, July 31-Aug. 5, 2005,
(CD-ROM)
38. H. Sato, C. Nishidome, I. Kajiwara, T. Nagao, A.K. Hayashi, and S. Ogawa, “Efficiency of air
injection on stability and emission controls in premixed combustion,” Paper No. 73, 20th Int.
Colloq. on Dynamics of Explosions and Reactive Systems, Montreal, Canada, July 31-Aug. 5,
2005, (CD-ROM)
39. H. Jotaki, N. Tsuboi, and A.K. Hayashi, “Numerical simulation on two-dimensional H2/air
detonation waves propagating in a converging-diverging nozzle,” Paper No. 125, 20th Int. Colloq.
on Dynamics of Explosions and Reactive Systems, Montreal, Canada, July 31-Aug. 5, 2005,
(CD-ROM)
40. A.K. Hayashi, K. Eto, and N. Tsuboi, “Numerical simulation of spin detonation in square tube,”
Paper No. 85, 20th Int. Colloq. on Dynamics of Explosions and Reactive Systems, Montreal,
Canada, July 31-Aug. 5, 2005, (CD-ROM)
41. Kazuki Morita, Fumio Higashino, A. Koichi Hayashi, Hiroyuki Sato, and Nobuo Furukawa,
“Numerical instability across shock and contact discontinuities,” 1108-2a, 25th Int. Symp. on
Shock Waves, Bangalore, India, July 17-22, 2005 (CD-ROM)
42. A. Koichi Hayashi, Kenta Numa, Hiroyuki Sato, Fumio Higashino, and Michihisa Tsutahara,
“Fundamental study on detonation propulsion for marine transportation,” 1108-1a, 25th Int. Symp.
on Shock Waves, Bangalore, India, July 17-22, 2005 (CD-ROM)
43. Y.F. Liu, F. Higashino, H. Sato, and A.K. Hayashi, “Numerical simulation on hydrogen fuel
jetting from high pressure tank,” O21, 2nd Int. Symp. on Energetic Materials and their
Applications, May 26-27, 2005, Tokyo (CD-ROM)
44. J. Misawa, S. Shiokawa, H. Adachi, H. Sato, F. Higashino, and A.K. Hayashi, “Reduction of
DDT time and distance in H2/O2/Ar mixture by dividing tube,” O20, 2nd Int. Symp. on Energetic
Materials and their Applications, May 26-27, 2005, Tokyo (CD-ROM)
45. Masaru Ikame, Takeyuki Kishi, Kazuyoshi Harumi, Katsuhide Hiraoka, Hideyuki Oka, ＊
Hiroyuki Sato, A.Koichi Hayashi, Chiaki Nishidome, Itsuro Kajiwara, Satoru Ogawa,
“Suppression of Combustion Noise and Combustion Oscillation by Thermo-Acoustic Active
Control Using Secondary Flame,” GT-2005-68233, Proc. of GT2005, ASME Turbo Expo 2005:
Power for Land, Sea and Air, American Society of Mechanical Engineers, June 6-9, 2005
(CD-ROM)
46. Hiroyuki SATO, A. Koichi HAYASHI, Masaru IKAME, Takeyuki KISHI, Kazuhiro HARUMI,
Shigeru TACHIBANA, Laurent ZIMMER, Satoru OGAWA, “Design of Active Control System
for Combustion Instability Using Mixed H2/H∞ Algorithm”, Proceedings of the 6th Symposium
on Smart Control of Turbulence, pp.171-178, Josui Kaikan, Tokyo, Japan, March 6-9, 2005.
47. Hiroyuki SATO, Masaru IKAME, Kazuyoshi HARUMI, Takeyuki KISHI, Katuhide HIRAOKA,
Hideyuki OKA, A. Koichi HAYASHI, Satoru OGAWA, “Active Instability Control of
Thermoacoustic Oscillation in Premixed Gas Turbine Combustors”, The Fourth International
Symposium on Advanced Fluid Information and The First International Symposium on
Transdisciplinary Fluid Integration (AFI/TFI 2004), MS7-8, pp.364-369, Sendai International
Center, Sendai, Japan, Nov.11-12, 2004.
48. Takahisa NAGAO, Hiroyuki SATO, A. Koichi HAYASHI, Satoru OGAWA, “Effect of
Secondary Injection on Pressure Fluctuation and NOx Production for Oscillatory Combustion”,
30th International Symposium on Combustion, WIP Poster Session; 5F5-07, Chicago, USA, July
25- 30, 2004.
49. A. Koichi HAYASHI, Satoshi SHIOKAWA, Keitaro ETO, Hiroyuki SATO, Nobuyuki TSUBOI,
Jone H. S. Lee, “Detonation Propagation in a Rectangular Tube with Staggered and Symmetry
Array Obstacles”, 30th International Symposium on Combustion, WIP Poster Session; 5F2-06,
Chicago, USA, July 25- 30, 2004.
50. Hiroyuki SATO, Hidetoshi SHIMADA, A. Koichi HAYASHI, “A Novel Ignition System Applied
for Pulse Detonation Engine”, 30th International Symposium on Combustion, WIP Poster
Session; 5F1-14, Chicago, USA, July 25- 30, 2004.
51. A. Koichi HAYASHI, Hidetoshi SHIMADA, Satoshi SHIOKAWA, Keitaro ETO, Hiroyuki
SATO, Nobuyuki TSUBOI, John H. S. LEE, “Numerical and Experimental Study of the Effect of
Obstacles on DDT Process,” 24th International Symposium on Shock Waves, CD-ROM, July
11-16, 2004.
52. A. Koichi HAYASHI, Yasuhiro KENMOKU, Keisuke ASAMI, Hidetoshi SHIMADA, Hiroyuki
SATO, “Numerical and Experimental Study on the Effect of Obstacles on DDT Process,” 24th
International Symposium on Shock Waves, Beijing China, CD-ROM Paper 1761, July 11-16,
2004.
53. A. Koichi HAYASHI, Hidetoshi SHIMADA, Yasuhiro KENMOKU, Hiroyuki SATO, “Detailed
Mechanism of Flame Jet Ignition in Pulse Detonation Engine,” International Colloquium on
Application of Detonation for Propulsion, St. Petersburg, July 6-9, 2004.
54. Nobuyuki TSUBOI, Keitaro ETO, A. Koichi HAYASHI, “Three-Dimensional Chapman-Jouguet
Detonation in a Rectangular Tube – Section Area,” International Colloquium on Application of
Detonation for Propulsion, St. Petersburg, July 6-9, 2004.
55. Hidetoshi SHIMADA, Yasuhiro KENMOKU, Hiroyuki SATO, A. Koichi HAYASHI, “Hydrogen
Pulse Detonation Engine”, 15th World Hydrogen Energy Conference, CD-ROM; 28J-08,
Yokohama, Japan, June 27- July 2, 2004.
56. A. Koichi HAYASHI, Shingo IDA, Chihiro KAMEI, Hiroyuki SATO, “Study on High-Pressure
Hydrogen Jet Injected to an Obstacle under Atmospheric Pressure”, 15th World Hydrogen
Energy Conference, CD-ROM; 28F-04, Yokohama, Japan, June 27- July 2, 2004.
57. Hiroyuki SATO, A. Koichi HAYASHI, “Control of Stabilization for Unsteady Hydrogen Jet
Diffusion Flames”, 15th World Hydrogen Energy Conference, CD-ROM; P04-10, Yokohama,
Japan, June 27- July 2, 2004.
58. A. Koichi HAYASHI, “Active Control in Lean Premixed Combustion: its Difficulties and a
Future Perspective,” Lean Combustion Technology II: Promise and Practice, CD-ROM, April
25-29, 2004.
59. Sato, H., Hayashi, A.K., Ikame, M., Harumi, K., Kishi, T., Hiraoka, K., Oka, H., “Active Control
of Acoustically Coupled Pressure Oscillation in Lean Premixed Combustor by Secondary Fuel
Injection,” Proc. of the 5th Symp. on Smart Control of Turbulence, Vol. 5, pp. 153-164, 2004.
60. Sato, H., Yasunami, Y., Ogawa, S., Hayashi, A.K., “Optimization of Oscillatory Flame in a
Swirler Combustion using an Active Control Method,” 42nd AIAA Aerospace Sciences Meetings
and Exhibit, AIAA, CDROM, 2004.
61. Hayashi, A.K., Yanai, H., Itabashi, T., Sato, H., “Radiation Analysis behind Hypersonic Shock
Wave in Nitrogen using a Spectroscope and High Speed ICCD Camera,” 42nd AIAA Aerospace
Sciences Meetings and Exhibit, AIAA, CDROM, 2004.
62. Eto, K., Tsuboi, N., Hayashi, A.K., “Three-Dimensional CJ Detonation in Rectangular Tube,”
42nd AIAA Aerospace Sciences Meetings and Exhibit, AIAA, CDROM, 2004.
63., Shiokawa, S., Asami, K., Sato, H., Hayashi, A.K., „Numerical Study of Detonation Propagation
in a Rectangular Tube with Obstacles,” 42nd AIAA Aerospace Sciences Meetings and Exhibit,
AIAA, CDROM, 2004.
64. Shimada, H., Kenmoku, Y., Sato, H., Hayashi, A.K., “A New Ignition System for Pulse
Detonation Engine,” 42nd AIAA Aerospace Sciences Meetings and Exhibit, AIAA, CDROM,
2004.
65. Sato, H., Yasunami, Y., Endo, T., Yoshimi, S., Hayashi, A.K., Ogawa, S., “Active Combustion
Control and 3D-LIF Measurement for Unstable Premixed Swirl Flame,” 19th International
Colloquium on the Dynamics of Explosions and Reactive Systems, IDERS, CDROM, 2003.
66. Hayashi, A.K., Asami, K., Shiokawa, S., Sato, H., Lee, J.H.S., “Detailed Mechanism of
Propagation in Obstacled Tube,” 19th International Colloquium on the Dynamics of Explosions
and Reactive Systems, IDERS, CDROM, 2003.
67. Eto, K., Tsuboi, N., Hayashi, A.K., “Numerical Simulation of Two-Dimensional Hydrogen/Air
C-J Detonation Waves: Dependence of Detailed Chemical Reaction Models on Detonation Cell
Size., 19th International Colloquium on the Dynamics of Explosions and Reactive Systems,
IDERS, CDROM, 2003.
68. Tsuboi, N., Hayashi, A.K., “Three-Dimensional Numerical Simulation of Hydrogen/Air C-J
Detonation: Diagonal Structure,” 19th International Colloquium on the Dynamics of Explosions
and Reactive Systems, IDERS, CDROM, 2003.
69. Tsuboi, N., Fujii, K., Hayashi, A.K., “Numerical Study on Detonation Propagation in Pulse
Detonation Engine with Expanded Cross-Section Area,” 19th International Colloquium on the
Dynamics of Explosions and Reactive Systems, IDERS, CDROM, 2003.
70. Shimada, H., Kenmoku, Y., Sato, H., Hayashi, A.K., “Performance of Flame Jet Ignition for
Pulse Detonation Engine,” 19th International Colloquium on the Dynamics of Explosions and
Reactive Systems, IDERS, CDROM, 2003.
71. Aomi, K.B., Hayashi, A.K., Ogawa, S., “Aerodynamic and Ignition Study of High-Speed
Hydrogen Jet from High-Pressure Tank,” 19th International Colloquium on the Dynamics of
Explosions and Reactive Systems, IDERS, CDROM, 2003.
72., Sato, H., Yamazaki, Y., Hayashi, A.K., “Experimental and Numerical Studies on a Control of
Lifted Phenomena in Non-Premixed Hydrogen Jet Flames, 3rd Int. Symp., Turbulence and Shear
Flow Phenomena, Vol. 3, No.11, pp. 585-590, 2003.
73. Hayashi, A.K., Sato, H., Endo, T., Yasunami, Y., Yasunami, Y., Yoshimi, S., Ogawa, S., Ikame,
M., Kishi, T., Hiraoka, K., Harumi, K., Oka, H,” Analysis of Unstable Phenomena, in Premixed,
Flame Burners, and their Active Control.,” 3rd Symp. on Smart Control of Turbulenbr, Tokyo
University, 2003.
74. Iwata, M., Shoji, S., Hayashi, A.K., Tsurushima, T., “Numerical Simulation of Spray Combustion
at High Temperature and Pressure Atmosphere in a Closed Chamber,” 29th Int. Symp. on
Combustion, WIP, 2002.
75. Fujii, K., Kenmoku, Y., Shimada, H., Hayashi, A.K., Sato, H., “Experimental and Numerical
Study on Hydrogen/Oxygen and Air Pulse Detonation Engine,” 29th Int. Symp. on Combustion,
WIP, 2002.
76. Endo, T., Sato, H., Hayashi, A.K., “Development of 3D LIF Measurement System for a
Non-Premixed Turbulent Lifted Flame,” 29th Int. Symp. on Combustion, WIP, 2002.
77. Hayashi, A.K., Sato, H., Takahashi, K., Nakano, S., Allen, M., “Temperature and H2O
Concentration Measurements of a Counter Diffusion Flame using a Diode Laser,” 29th Int. Symp.
on Combustion, WIP, 2002.
78. Yasunami, Y., Yamazaki, Y., Sato, H., Hayashi, A.K., “Active Control System of Methane-Air
Oscillatory Flame using a Sound Level Sensor,” 29th Int. Symp. on Combustion, WIP, 2002.
79. Hayashi, A.K., Nakano, S., Saito, N., Liao, C.-H., Tsuruda, T., “Study on Water Vapor
Suppression to Tubular Flame,” 29th Int. Symp. on Combustion, WIP, 2002.
80. Tsuboi, N., Kato, S., Hayashi, A.K., “Three-Dimensional Numerical Simulation for
Hydrogen/Air Detonation: Rectangular and Diagonal Structures,” 29th Int. Symp. on Combustion,
Oral Presentation, 2002.
81. Hayashi, A.K., Haba, M., Himi, N., Sasaki, Y., Cheng, R.K., “Study on Hydrogen and Methane
Non-Premixed Lifted Jet Flame Characteristics, Proc. of 2nd Joint Meeting of the US Sections of
the Combustion Institute, US Sections of the Combustion Institute, 2001.
82., Hayashi, A.K., Cheng, R.K., “Study on Control Factors and System for Turbulent Combustion
Control.,” Proc. of the 2nd Symp. on Smart Control of Turbulence, Vol. 2, 2001.
83. Suzuki, T., Yanai, H., Hayashi, A.K., “Experimental and Numerical Study on Non-Equilibrium
Radiation behind Hypersonic Shock Waves,” 39th AIAA Aerospace Sciences Meeting and
Exhibit, AIAA2001-0898, 2001.
84. Shimizu, H., Tsuboi, N., Hayashi, A.K., “Study of Detailed Chemical Reaction Model on
Hydrogen-Air Detonation,” 39th AIAA Aerospace Sciences Meeting and Exhibit,
AIAA2001-0478, 2001.
85. Hayashi, A.K., Shimoshiba, Y., Shioda, N., Yamazaki, Y., Endo, T., Himi, N., Cheng, R.K.,
“Non-Premixed Turbulent Jet Flame Control,” Lean Combustion and its Control Engrg.
Foundation, 2000.
86. Shimizu, H., Tsuzuki, M., Yamazaki, Y., Hayashi, A.K., “Experiments and Numerical Simulation
on Methane Flame Quenching by Water Mist,” 2rd Int. Symp. on Hazards, Prevention, and
Mitigation of Industial Explosion, pp.296-301, 2000.
87. Yamazaki, Y., Hayashi, A.K., Tsuzuki, M., “Chemically Non-Equilibrium Analysis on Flame
Quenching Phenomena by Mist Water for Various Hydrocarbon Flames,” 3rd Int. Symp. on
Hazards, Prevension, and Mitigation of Industrial Explosions, pp. 283-288, 2000.
88. Benkiewicz, K., Hayashi, A.K., “One-Dimensional Numerical Modeling of Dusty Gas Mixtures
Ignition using Continuous Mixture Theory with “Compressible Solid” and “Non-Compressible
Solid,” sub-Model,” 3rd Int. Symp. on Hazards, Prevension, and Mitigation of Industrial
Explosions, pp. 258-263, 2000.
89. Matsuda, T., Sato, T., Benkiewicz, K., Hayashi, A.K., “Ignition Properties of Cornstarch
Dust-Air Mixture,” 3rd Int. Symp. on Hazards, Prevension, and Mitigation of Industrial
Explosions, pp. 179-184, 2000.
90. Tsuboi, N., Hayashi, A.K., Matsumoto, Y., “Three-Dimensional Structure of Cornstarch-Oxygen
Two-Phase Detonation in a Circular Tube.,” 3rd Int. Symp. on Hazards, Prevension, and
Mitigation of Industrial Explosions, pp. 160-165, 2000.
91. Hayashi, A.K., et al., “Calculation of High Temperature Radiation behind Hypersonic Shock
Waves in Air at 3.6-6.5 Km/s, 3rd Sino-Japan Joint Workshop on Computational Fluid Dynamics,
Chinese Academy of Science, 2000.
92. Hayashi, A.K., Shimoshiba, Y., Shioda, N., Haba, M., Yamazaki, Y., Endo, T., Himi, N., Cheng,
R.K., “Control Features of Non-Premixed Turbulent Jet Flame,” Int. Workshop on Turbulent
Combustion, Japan Comb. Institute, 2000.
93. Hayashi, A.K., Ogawa, S., “Overview on National Research Project “Smart Control of
Turbulence,” Int. Workshop on Turbulent Combustion, Japan Combustion Institute, 2000.
94. Hayashi, A.K., Suzuki, T., Hiraoka, M., “Measurement and Computation of Radiation in a
Hypersonic Shock-induced Flow,” Int. Workshop on Hypersonic Flows and Shock Waves,
Tohoku University, 2000.
95 Makida, M., Hayashi, A.K., Fujiwara, T., “An Incorporation Method of Spray Model into Gas
Phase Calculation,” 28th Int. Symp. on Combustion, WIP, pp.453, 2000.
96. Hayashi, A.K., Shimizu, H., Yamazaki, Y., Tsuzuki, M., “Study on Flame Quenching Phenomena
using Water Mist,” 28th Int. Symp. on Combustion, WIP, pp.63, 2000.
97. Benkiewicz, K., Hayashi, A.K., “Application of “Compressible Solid” and Continuum Mixture
Theory for 1-D Numerical Simulation of Initiation and Propagation of Shock Waves and
Combustion in Oxygen-Aluminum Mixtures,” Int. Colloq. On Control of detonation Processes,
pp.55-60, Russian Academy of Sciences, 2000.
98. Hayashi, A.K., Matsuura, K., Baba, S., “Performance of a Flame Jet Ignition System in a
Two-Stroke Engine,” SAE 2000 World Congress, No. 2000-01-0199, Society of Automotive
Engineers, 2000.
99. Hayashi, A.K., Haba, M., Endo, N., “High Temperature Jet Impingement on Material Surface,”
ISAPS’99, Vol. 2, pp. 73-78, Institute of Applied Plasma Science, 1999.
100. Hayashi, A.K., Kutsukawa, M., Tsuboi, N., “Dynamic Interaction between Reflected Shock
Wave and Vortex behind Two-Phase Detonation Front,” 3rd Int. Meeting on Shock-Vortex
Interaction, Institute of Fluid science, Tohoku Univ., 1999.
101. Hayashi, A.K., Mikutsu, Y., “Numerical Simulation on a Pulse Detonation Engine,” 17th
ICDERS, 1999.
102. Tsuboi, N., Hayashi, A.K., Matsumoto, Y., “Three-dimensional parallel simulation of
cornstarch-oxygen two-phase detonation,” 17th ICDERS, 1999.
103. Suetake, M., Uchida, N., Hayashi, A.K., “Experimental and Numerical Analysis of Jet Ignition,”
17th ICDERS, 1999.
104. Mikutsu, Y., Araki, N., Hayashi, A.K., “Detailed study on the structure near hot spots in
hydrogen-air detonation,” 17th ICDERS, 1999.
105. Miyamoto, T., Hayashi, A.K., Harada, A., Sasaki, S., Akagawa, H., Tsujimura, K., “A
Computational Investigation of Premixed Lean Diesel Combustion – Characteristics of Fuel-Air
Formation, Combustion and Emissions,” SAE Int. Congress and Exposition, Paper No.
1999-01-0229, 19999.
106. Hayashi, A.K., Araki, N., “Detailed Numerical Study on Hydrogen-Air Detonation Structure,”
Proc. of Advances in Experimentation & Computation of detonations, p. 39, 1998.
107. Ito, H., Hayashi, A.K., Uchida, N., Suetake, M., Watanabe, Y., Karasawa, H., “Experimental
Study on Premixed Hydrogen Jet Ignition,” Proc. of the 27th Int. Symp. on Combustion, p. 454,
1998.
108. Shimoshiba, Y., Hayashi, A.K., “Interaction between Turbulent Mixing and Chemical Reaction
in High Speed Hydrogen Diffusion Flame,” Proc. of the 27th Int. Symp. on Combustion, p. 251,
1998.
109. Hayashi, A.K., Tsuboi, N., Kutsukawa, M., “Numerical Analysis of 3D Solid-Gas Two-Phase
Detonation,” Proc. of the 27th Int. Symp. on Combustion, p. 190, 1998.
110. Watanabe, Y., Hayashi, A.K., Iwagami, H., Tokunaga, T., Hiraoka, M., “Non-Equilibrium Flow
behind Medium Hypersonic Shock Waves,” 21st Int. Symp. on Rarefied Gas Dynamics, pp.1-8,
1998.
111. Hayashi, A.K., Yokoyama, T., “Numerical Simulation of a Single Droplet Burning in a Hot Air
Flow using a C-CUP Method,” Proc. of 7th Int. Conference on Numerical Combustion, p. 122,
1998.
112. Hayashi, A.K., Shimoshiba, Y., “A Sensitivity Analysis in Hydrogen-Air Diffusion Flame,”
Proc. of 7th Int. Conference on Numerical Combustion, p. 59, 1998.
113. Shimoshiba, Y., Hayashi, A.K., “Numerical Simulation of Vortex Action in Hydrogen Diffusion,”
Proc. of 2nd Int. Workshop on Shock Wave/Vortex Interaction, pp.219-231, 1997.
114. Hayashi, A.K., Yonemura, O., “Jet Impingement Effects on Material Surface,” Proc. of 1st Int.
Symp. on Applied Plasma Science, pp. 47-52, 1997.
115. Mori, S., Yoshikawa, N., Hayashi, A.K., “Volumetric Ignition Triggered by Hot Jet Injection,”
Proc. of 16th Int. Colloq. On the Dynamics of Explosions and Reactive Systems, pp. 557-560,
1997.
116. Fujisaki, Y., Hayashi, A.K., “Numerical Simulation of Flame Propagation between Two Rooms,”
Proc. of 16th Int. Colloq. On the Dynamics of Explosions and Reactive Systems, pp. 561-564,
1997.
117. Kutsukawa, M., Hayashi, A.K., “Numerical Study of Detonation Cell Structure in Gas-Solid
Two-Phase Mixtures,” Proc. of 16th Int. Colloq. On the Dynamics of Explosions and Reactive
Systems, pp. 546-549, 1997.
118. Hayashi, A.K., Itoh, H., Uchida, N., Watanabe, Y., Suetake, M., Karasawa, H., “Ignition
Mechanism by Hydrogen Flame Jet through an Orifice,” Proc. of 21st Int. Symp. on Shock
Waves, Paper No. 2661, 1997.
119. Dohi, T., Hayashi, A.K., Ogawa, S., “Numerical Simulation of Layered Detonation using a
Detailed Hydrogen Chemistry,” Proc. of 21st Int. Symp. on Shock Waves, Paper No. 2660, 1997.
120. Takahashi, M. Hayashi, A.K., “Numerical Study on Mixing and Ignition of Jet Injection in
Hypersonic Flow,” Comp. Fluid Dynamics-Nagoya, pp.454-462, 1990.
121. Hishida, M., Hayashi, A.K., Numerical Simulation of Shock Wave-Solid particle Layer
Interaction,” Comp. Fluid Dynamics-Nagoya, pp.925-932, 1990.
122. Hayashi, A.K., Dryer, F.L., “Preliminary Observation on the High Temperature Oxidation of
Ethanol,” Proc. of the Eastern Section Meeting of the Combustion Institute, 1981.