EIF Lab. ifs.tohoku univ.jp

REPRESENTATIVE REFERENCES (1995 - )

1. Optimization of Plasma Material Processes

(1) Hideya Nishiyama, Takehiko Sato, Abraham Veefkind and Shinichi Kamiyama, "Functional Enhancement of a Non-equilibrium Plasma Jet by Seeding in the Applied Magnetic Field", Heat and Mass Transfer, Vol.30, No.5 (1995), pp.291-296.

(2) Hideya Nishiyama, Toshiaki Saito and Shinichi Kamiyama, "Numerical Simulation of a Non-equilibrium Plasma Jet in an Applied Magnetic Field Using Three-Fluid Model", Plasma Chemistry and Plasma Processing, Vol.16, No.2 (1996), pp.256-286.

(3) Seong Won Nam, Hideya Nishiyama and Shinichi Kamiyama, "Numerical Analysis on Plasma Spraying in a DC-RF Hybrid Plasma Reactor", JSME International Journal, Ser.B, Vol.39, No.1 (1996), pp.134-140.

(4) Hideya Nishiyama, Yoshihiro Muro and Shinichi Kamiyama, "Control of Temperature and Velocity Fields of RF Induction Plasma by Injecting Secondary Gas", Journal of Physics D: Applied Physics, Vol. 29, No.10 (1996), pp.2634-2643.

(5) Hideya Nishiyama, Norihiro Fukai and Shinichi Kamiyama, "Modelling of Nonequilibrium Effects in an Inductively Coupled RF Ar/He Mixed Plasma", Proceedings of the 13th International Symposium on Plasma Chemistry, Beijing, Vol.2 (1997), pp.766-771.

(6) Hideya Nishiyama, Norihiro Fukai and Shinichi Kamiyama, "Functionalization of a Nonequilibrium RF Induction Plasma by Gas Mixtures", JSME International Journal, Ser.B, Special Issue on Fluid Engineering, Vol.41 (1998), pp.502-510.

(7) Hideya Nishiyama, Masakatsu Kuzuhara, Oleg P. Solonenko and Shinichi Kamiyama, "Numerical Modeling of an Impinging Dusted Plasma Jet Controled by a Magnetic Field in a Low Pressure", Proceedings of the 15th International Thermal Spray Conference, Nice, Vol.1 (1998), pp.451-456.

(8) Hideya Nishiyama, Masakatsu Kuzuhara, Oleg P. Solonenko and Shinichi Kamiyama, "Numerical Modeling of an Impinging and Compressible Dusted Plasma Jet Controlled by a Magnetic Field", Plasma Chemistry and Plasma Processing, Vol.19, No.3 (1999), pp.363-381.

(9) Hideya Nishiyama, "Magnetic Control of Homogeneous and Dust-Laden Plasma Jets (Invited)", Pure and Applied Chemistry, Vol.71, No.10 (2000), pp.1899-1907.

(10) Hideya Nishiyama, Yukio Matsushima, Takehiko Sato and Shinichi Kamiyama, "Numerical Simulation of Mixing Effect on a Non-equilibrium Plasma Jet in an Applied Magnetic Field", JSME International Journal, Ser.B, Vol.43, No.2 (2000), pp.314-322.

(11) Hideya Nishiyama, Takehiko Sato, Shinji Ito, Takeshi Sato and Shinichi Kamiyama, "Mixing Effect on a RF Induction Nonequilibrium Plasma", Heat and Mass Transfer, Vol.36, No.5 (2000), pp.433-437.

(12) Hideya Nishiyama, "Functional Fluids and Intelligent Fluids", Edited by the Japan Society of Mechanical Engineers, Corona Publishing Co., Ltd. (2000), pp.48-92. [Book, in Japanese]

(13) Takehiko Sato and Hideya Nishiyama, "Numerical Simulation of Particle-Laden Plasma Flow in a Pipe Under an RF Electromagnetic Field", Transactions of JSME, Ser.B, Vol.66, No.645 (2000), pp.1295-1302. [in Japanese] " The Best Paper Award of the Japan Society of Mechanical Engineers (2001) "

(14) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Optimization for Plasma Spraying Processes by Numerical Simulation", Proceedings of the 72th National Conference on Thermal Spraying, (2000), pp.27-28. [in Japanese] " Research Encouragement Award of Japan Thermal Spraying Society (2001) "

(15) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Numerical Study Possibilities of Plasma Spraying Processes under Increased Inlet Pressure", Proceedings of the 15th International Symposium on Plasma Chemistry, Orleans, Vol.VI (2001), pp.2647-2653.

(16) Hideya Nishiyama, Masakatsu Kuzuhara, Masakazu Shiozawa, Takehiko Sato and Oleg P. Solonenko, "Magnetic Control Simulation of In-Flight Particle Characteristics in an Impinging Dusty Plasma Jet", Thermal Plasma Torches and Technologies, Vol.2, Thermal Plasma and Applied Technologies, Research and Development, (2001), pp.28-40, Cambridge International Science Publishing. [Book]

(17) Hideya Nishiyama, Yasutaka Shindo and Takayuki Watanabe, "Numerical Modelling of a Nonequilibrium RF Induction Reactive Plasma Using Multicomponent Model", Proceedings of the 15th International Symposium on Plasma Chemistry, Orleans, Vol.IV (2001), pp.1541-1546.

(18) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Optimization for Plasma Spraying Processes by Numerical Simulation", Thin Solid Films, Vol.407, No.1-2 (2002), pp.54-59.

(19) Kandasamy Ramachandran and Hideya Nishiyama, "Three-dimensional Effects of Carrier Gas and Particle Injections on the Thermofluid Fields of Plasma Jets", Journal of Physics D: Applied Physics, Vol.35, No.4 (2002), pp.307-317.

(20) Pavel Kotalik and Hideya Nishiyama, "Effect of External Magnetic Field on Arc Plasma Flow", IEEE Transactions on Plasma Science, Vol. 30, No.1 (2002), pp.160-161.

(21) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Numerical Simulation of a Particle-Laden Plasma Flow in a Complex Configuration under an Electromagnetic Field", International Journal of Multiphase Flow, Vol.29 (2003), pp.54-59. "The Best Paper Award of the Japanese Society for Multiphase Flow (2002) "

(22) Hideya Nishiyama and Masaya Shigeta, "Numerical Simulation of an Radio Frequency Inductively Coupled Plasma for the Functionalization by Seeding Vaporized Alkali Metal", The European Physical Journal, Applied Physics, Vol.18, No.2 (2002), pp.125-133.

(23) Masaya Shigeta, Takehiko Sato and Hideya Nishiyama, "Numerical Simulation of a Potassium-seeded Turbulent RF Inductively Coupled Plasma with Particles", Thin Solid Films, Vol.435, Nos.1-2 (2003), pp.5-12.

(24) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Evaluations of Ceramic Spraying Processes by Numerical Simulation", Journal of Japan Thermal Spraying Society, Vol.40, No.1 (2003), pp.9-13. [in Japanese]

(25) Kandasamy Ramachandran, Takehiko Sato and Hideya Nishiyama, "3D Modeling of Evaporation of Water Injected into a Plasma Jet", International Journal of Heat and Mass Transfer, Vol.46, No.9 (2003), pp.1653-1663.

(26) Kandasamy Ramachandran, Nobuyuki Kikukawa and Hideya Nishiyama, "3D Modeling of Strong Plasma-particle Interactions in a Plasma Jet under Dense Loading Conditions", Thin Solid Films, Vol.435, Nos.1-2 (2003), pp.298-306.

(27) Kandasamy Ramachandran and Hideya Nishiyama, "Fully Coupled 3D Modeling of Plasma-particle Interactions in a Plasma Jet", Thin Solid Films, Vol.457 (2004), pp.158-167.

(28) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Evaluations of Ceramic Spraying Processes by Numerical Simulation", Materials Transactions, Vol.45, No.6 (2004), pp.1874-1879.

(29) Deivandren Sivakumar and Hideya Nishiyama, "Analysis of Madejski Splat-Quench Solidification Model with Modified Initial Conditions", Journal of Heat Transfer, Transactions of ASME, Vol.126, No.3 (2004), pp.485-489.

(30) Deivandren Sivakumar and Hideya Nishiyama, "Spreading and Solidification of a Molten Metal Droplet Impinging on a Heated Surface", International Journal of Heat and Mass Transfer, Vol.47, Nos.19-20 (2004), pp.4469-4478.

(31) Deivandren Sivakumar and Hideya Nishiyama, "Numerical Analysis on the Impact Behavior of Molten Metal Droplets Using a Modified Splat-quench Solidification Model", Journal of Heat Transfer, Transactions of ASME, Vol.126, No.6 (2004), pp.1014-1022.

(32) Masaya Shigeta, Takehiko Sato and Hideya Nishiyama, "Computational Simulation of a Particle-laden RF Inductively Coupled Plasma with Seeded Potassium", International Journal of Heat and Mass Transfer, Vol.47, No.7 (2004), pp.707-716.

(33) Hideya Nishiyama, "JSME Mechanical Engineers' Handbook, Fundamentals, Fluids Engineering", Japan Society of Mechanical Engineers, (2006), p.187, p.189.

(34) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational Simulation of Arc Welding Process with Complex Interactions", ISIJ International, Vol.46, No.5 (2006), pp.705-711. "Physics of Welding Award (Japan Welding Society, 2006)"

(35) Juyong Jang, Hidemasa Takana, Sangkyu Park and Hideya Nishiyama, "Advancement of In-Flight Alumina Powder Spheroidization Process with Water Droplet Injection Using a Small Power DC-RF Hybrid Plasma Flow System", Journal of Thermal Spray and Technology, Vol.21, No.5 (2012), pp.900-907.

(36) Oleg P. Solonenko, Hideya Nishiyama, Andrey V. Smirnov, Hidemasa Takana and Juyong Jang, "Visualization of Arc and Plasma Flow Patterns for Advanced Material Processing", Journal of Visualization, Vol.18, (2015), in press, published online : 9 August, 2014.

2. Optimization of Environmental Processes and Plasma Medicine

(1) Takehiko Sato, Hideya Nishiyama and Makoto Kambe, "Characteristics of Breaddown Voltage at a Narrow Gap in a Non-thermal Plasma Flow", Journal of the Korean Physical Society, Vol.42 (2003), pp.782-786.

(2) Hideya Nishiyama, Takehiko Sato and Kazumune Takamura, "Performance Evaluation of Arc-electrodes Systems for High Temperature Materials Processing by Computational Simulation", Iron and Steel Institute Journal International, Vol.43, No.6 (2003), pp.950-956.

(3) Takehiko Sato, Dai Ito and Hideya Nishiyama, "Reaction Fields Analysis of a Non-thermal Plasma Flowing in a Rectangular Reactor", Thin Solid Films, Vol.457, No.1 (2004), pp.78-83.

(4) Hideya Nishiyama, Toshiki Shimizu and Takehiko Sato, "Performance Evaluation of Arc Ash Melting Systems by Computational Simulation", Iron and Steel Institute Journal International, Vol.44, No.2 (2004), pp.268-274.

(5) Takehiko Sato, Dai Ito and Hideya Nishiyama, "Reactive Flow Analysis of Nonthermal Plasma in a Cylindrical Reactor", IEEE Transactions on Industry Applications, Vol.41, No.4 (2005), pp.900-905.

(6) Takehiko Sato, Makoto Kambe and Hideya Nishiyama, "Analysis of a Methanol Decomposition Process by a Nonthermal Plasma Flow", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.432-439.

(7) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational simulation of arc welding process with complex interactions", ISIJ. Int, Vol.46, No.5 (2006), pp.705-711.

(8) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational simulation of arc melting process with complex interactions", Proc.17th Int. Symp. on Plasma Chemistry, CD-ROM, (2005). "The Best Paper Award in the 17th Int. Symposium on Plasma Chemistry (2005)"

(9) Takehiko Sato, Kazunari Fujioka, Raju Ramasamy, Takuya Urayama and Shuitsu Fujii, "Sterilization Efficacy of a Coaxial Microwave Plasma Flow at Atmospheric Pressure", IEEE Transactions on Industry Applications, Vol.42, No.2 (2006), pp.399-404.

(10) Takehiko Sato, Takashi Miyahara, Akiko Doi, Shiro Ochiai, Takuya Urayama and Tatsuyuki Nakatani, "Sterilization Mechanism for Escherichia Coli by Plasma Flow at Atmospheric Pressure", Applied Physics Letters, Vol.89, No.7 (2006), 73902.

(11) Tomohiro Shibata, Akira Ozaki, Hidemasa Takana and Hideya Nishiyama, "Water Treatment Characteristics Using Activated Air Microbubble Jet with Photochemical Reaction", Journal of Fluid Science and Technology, Vol.6, No.2 (2011), pp.242-251.

(12) Hideya Nishiyama, Ryosuke Nagai and Hidemasa Takana, "Characterization of Mutiple Bubble Jet with Streamer Discharge", IEEE Transaction on Plasma Science, Vol.39, No.11 (2011), pp.2660-2661.

(13) Qing Li, Yi-Kang Pu and Hideya Nishiyama, "Atmospheric-Pressure Dielectric Barrier Plasma Jets Elongated by Elevating External Electric Field", IEEE Transaction on Plasma Science, Vol.39, No.11 (2011), pp.2290-2291.

(14) Qing Li, Hidemasa Takana, Yi-kang Pu and Hideya Nishiyama, "An Atmospheric Pressure Quasiuniform Planar Plasma Jet Generated by Using a Dielectric Barrier Configuration", Applied Physics Letters, Vol.98, No.24 (2011), 241501.

(15) Qing Li, Hidemasa Takana, Yi-Kang Pu and Hideya Nishiyama, "A Nonequilibrium Argon-Oxygen Planar Plasma Jet Using a Half-Confined Dielectric Barrier Duct in Ambient Air", Applied Physics Letters, Vol.100, No.13 (2012), 133501.

(16) Tomohiro Shibata and Hideya Nishiyama, "Decomposition of Methylene Blue in Water Using Mist Flow Plasma Reactor", International Journal of Plasma Environmental Science and Technology, Vol.6, No.3 (2012), pp.253-259.

(17) Hideya Nishiyama, Ryosuke Nagai, Kei Niinuma and Hidemasa Takana, "Characterization of DBD Multiple Bubble Jets for Methylene Blue Decolorization", Journal of Fluid Science and Technology, Vol.8, No.1 (2013), pp.65-74.

(18) Tomohiro Shibata and Hideya Nishiyama,"Numerical Study of Chemical Reactions in a Surface Microdischarge Tube with Mist Flow Based on Experiment", Journal of Physics D: Applied Physics, Vol.47, No.10 (2014), 105203 (12 pages).

(19) Tomohiro Shibata and Hideya Nishiyama,"Acetic Acid Decomposition in a Coaxial Dielectric Barrier Discharge Tube with Mist Flow", Plasma Chemistry and Plasma Processing, Vol.34, No.6 (2014), pp.1331-1343.

(20) Hideya Nishiyama, Kei Niinuma, Shohei Shinoki and Hidemasa Takana, "Decomposition of Acetic Acid using Multiple Bubble Jets with Pulsed Electrical Discharge", Plasma Chemistry and Plasma Processing, Vol.35, (2015), in press, published online : 1 January, 2015.

3. Nano/Micro Functional Plasma Systems

(1) Masaya Shigeta and Hideya Nishiyama, "Computer Sumulation of Nano Metallic-Particle Synthesis in an Advanced RF Inductively Coupled Plasma", Proceedings of the 3rd International Symposium on Slow Dynamics in Complex Systems, (2003), pp.174-175.

(2) Masaya Shigeta, Takayuki Watanabe and Hideya Nishiyama, "Numerical Investigation for Nano-Particle Synthesis in an RF Inductively Coupled Plasma", Thin Solid Films, Vol.457, No.1 (2004), pp.192-200.

(3) Masaya Shigeta and Hideya Nishiyama, "Numerical Analysis of Metallic Nanoparticle Synthesis Using RF Inductively Coupled Plasma Flows", Journal of Heat Transfer, Transactions of ASME, Vol.127, No.11 (2005), pp.1222-1230.

(4) Lizhu Tong, Shigeru Yonemura, Hidemasa Takana and Hideya Nishiyama, "Simulation Study of SiH4 Microdischarges in a Narrow Channel", Europhysics Letters, Vol.77, No.4, (2007), 45003 (5 pages).

(5) Lizhu Tong, Shigeru Yonemura, Hidemasa Takana and Hideya Nishiyama, "Effect of Configuration on Microdischarge Structure in a Narrow Channel", Physics Letters A, Vol.371, Nos.1-2 (2007), pp.140-144.

(6) Hidemasa Takana, Kazuhiro Ogawa, Tetsuo Shoji, and Hideya Nishiyama, "Computational Simulation on Performance Enhancement of Cold Gas Dynamic Spray Processes with Electrostatic Assist", Journal of Fluids Engineering, Transactions of ASME, Vol.130, No.8 (2008), 081701 (7 pages).

(7) Hidemasa Takana, Kazuhiro Ogawa, Tetsuo Shoji and Hideya Nishiyama, "Computational Simulation of Cold Spray Process Assisted by Electrostatic Force", Powder Technology, Vol.185, No.2 (2008), pp.116-123.

(8) Hidemasa Takana, Hong Yang Li, Kazuhiro Ogawa, Tsunemoto Kuriyagawa and Hideya Nishiyama, "Computational and Experimental Studies on Cavity Filling Process by Cold Gas Dynamic Spray", Journal of Fluids Engineering, Transactions of ASME, Vol.132, No.2 (2010), 021302 (9 pages).

(9) Juyong Jang, Hidemasa Takana, Yasutaka Ando, Oleg P. Solonenko and Hideya Nishiyama, "Preparation of Carbon-Doped TiO2 Nanopowder Synthesized by Droplet Injection of Solution Precursor in a DC-RF Hybrid Plasma Flow System", Journal of Thermal Spray and Technology, Vol.22, No.6 (2013), pp.974-982.

(10) Qing Li, Hidemasa Takana, Yi-Kang Pu and Hideya Nishiyama, "Glow-Like Helium and Filament-Like Argon Plasma Jets of Using a Dielectric Barrier Configuration at Atmospheric Pressure", IEEE Transactions on Plasma Science, Vol.42, No.10 (2014), pp.2360-2361.

4. Performance Improvement of Electromagnetic Energy Systems

(1) Hideya Nishiyama, Katsuhisa Hamada, Toshiyuki Uchii and Yasunori Tanaka, "Transient Response Simulation of Downstream Thermofluid Field in a Gas Circuit Breaker at Current Interruption", Proceedings of the XVth International Conference on Gas Discharges and their Applications (GD2004), Toulouse, Vol.1 (2004), pp.5-8.

(2) Hideya Nishiyama, Katsuhisa Hamada, Toshiyuki Uchii, Hiromichi Kawano and Yasunori Tanaka, "Transient Response Simulation of Downstream Thermofluid Field in a Gas Circuit Breaker during Current Interruption", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.381-388.

(3) Hidemasa Takana and Yoshihiro Okuno, "Numerical Simulation on Annular Hall MHD Conversion Device under Wide Range of Operating Condition", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.389-396.

(4) Hidemasa Takana, Toshiyuki Uchii, Hiromichi Kawano and Hideya Nishiyama, "Real-Time Numerical Analysis on Insulation Capability Improvement of Compact Gas Circuit Breaker", IEEE Transactions on Power Delivery, Vol.22, No.3 (2007), pp.1541-1546.

(5) Jiri Jenista, Hidemasa Takana, Milan Hrabovsky and Hideya Nishiyama, "Numerical Investigation of Supersonic Hybrid Argon-Water Stabilized Arc for Biomass Gasification", IEEE Transactions on Plasma Science, Vol.36, No.4 (2008), pp.1060-1061.

(6) Hideya Nishiyama, Hidemasa Takana, Shota Niikura, Hirofumi Shimizu, Dai Furukawa, Tomoki Nakajima, Kazunari Katagiri and Yoshikatsu Nakano, "Characteristics of Ozone Jet Generated by Dielectric-Barrier Discharge", IEEE Transactions on Plasma Science, Vol.36, No.4 (2008), pp.1328-1329.

(7) Hideya Nishiyama, Kenji Tsuri, Hirofumi Shimizu, Kazunari Katagiri, Hidemasa Takana and Yoshikatsu Nakano, "Activated Air Plasma Flow Generated by Pulsed Arc Discharge for Combustion Enhancement", International Journal of Heat and Mass Transfer, Vol.52, Nos.7-8 (2009), pp.1778-1785.

(8) Hideya Nishiyama, Hidemasa Takana, Hirofumi Shimizu, Yoshihiko Iwabuchi and Yoshikatsu Nakano, "Integrated Experimental and Numerical Analysis of an Atmospheric Pressure Reactive Air Plasma Jet Generated by Dielectric Barrier Discharge", International Journal of Emerging Multidisciplinary Fluid Sciences, Vol.1, No.2 (2009), pp.101-114.

(9) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, M. Bartlova, V. Aubrecht and M. Hrabovsky, "Parametric Study of Hybrid Argon-Water Stabilized Arc under Subsonic and Supersonic Regimes", High Temperature Materials and Processes, Vol.14, No.1 (2010), pp.55-70.

(10) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht, Petr Krenek, Viktor Sember and Alan Maslani, "A Comparative Numerical Study of Hybrid-Stabilized Argon-Water Electric Arc", Computer Physics Communications, Vol.182, No.9 (2011), pp.1776-1783.

(11) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht, Petr Krenek, Milan Hrabovsky, Tetyana Kavka, Viktor Sember and Alan Maslani, "Numerical Investigation of Hybrid-Stabilized Argon-Water Electric Arc Used for Biomass Gasification", Progress in Biomass and Bioenergy Production, InTech, (2011), ISBN978-953-307-491-7, pp.63-88,

(12) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht, Petr Krenek, Milan Hrabovsky, Tetyana Kavka, Viktor Sember and Alan Maslani, "Integrated Parametric Study of Hybrid-stabilized Argon-Water Arc under Subsonic, Transonic and Supersonic Plasma Flow Regimes", Journal of Physics D:Applied Physics, Vol.44, No.43 (2011), 435204 (20 pages).

(13) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Petr Krenek, Milada Bartlova and Vladimir Aubrecht, "Computer Modeling of Radiative Transfer in Hybrid-Stabilized Argon-Water Electric Arc", IEEE Transaction on Plasma Science,　Vol.39, No.11 (2011), pp.2892-2893.

(14) Hidemasa Takana, Yasunori Tanaka and Hideya Nishiyama, "Computational Simulation of Reactive Species Production by Methane-Air DBD at High Pressure and High Temperature", Europhysics Letters,　Vol.97, No.2 (2012), 25001 (4 pages).

(15) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht and Petr Krenek, "The Influence of Turbulence on Characteristics of a Hybrid-Stabilized Argon-Water Electric Arc", Journal of Thermal Science and Technology,　Vol.8, No.2 (2013), pp.435-447.

(16) Hidemasa Takana and Hideya Nishiyama, "Numerical Simulation of High-Energy Nano-Second Pulse DBD for Combustion Enhancement in Internal Engine", 31th International Conference on Phenomena in Ionized Gases (ICPIG-2013), Granada, (2013), PS3-022.

(17) Hidemasa Takana and Hideya Nishiyama, "Numerical Simulation of Nanosecond Pulsed DBD in Lean Methane-air Mixture for Typical Conditions in Internal Engines", Plasma Sources Science and Technology,　Vol.23, No.3 (2014), 034001 (9 pages).

(18) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Petr Krenek, Milada Bartlova and Vladimir Aubrecht, "Quasi-Laminar Flow Characteristics in Hybrid-Stabilized Argon-Water Arc Discharge for Subsonic-Supersonic Regimes", IEEE Transactions on Plasma Science,　Vol.42, No.10 (2014), pp.2632-2633.

(19) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht and Petr Krenek, "Large-Eddy Simulation of Subsonic-Supersonic Flow and Heat Transfer in a Hybrid Gas-Water Stabilized Arc", Journal of Physics: Conference Series (13th High-Tech Plasma Processes Conference (HTPP-2014)),　Vol.550, No.1 (2014), 012016 (10 pages).

(20) Hidemasa Tanaka, Igor V. Adamovich and Hideya Nishiyama, "Computational Simulation of Nanosecond Pulsed Discharge for Plasma Assisted Ignition", Journal of Physics: Conference Series (13th High-Tech Plasma Processes Conference (HTPP-2014)),　Vol.550, No.1 (2014), 012051 (9 pages).

5. Establishment of Smart Plasma Flow Systems and Their Applications

(1) Takehiko Sato, Hideya Nishiyama and Shinichi Kamiyama, "Effect of a Magnetic Field on Turbulence of a Non-equilibrium Plasma Jet", Proceedings of the 12th International Symposium on Plasma Chemistry, Minneapolis, Vol.3 (1995), pp.1779-1784.

(2) Takehiko Sato, Hideya Nishiyama and Shinichi Kamiyama, "Electromagnetic Control of a Nonequilibrium Plasma Jet Impinging on a Flat Plate", Transactions of JSME, Ser.B, Vol.62, No.594 (1996), pp.519-526. [in Japanese]

(3) Hideya Nishiyama, Takehiko Sato and Shinichi Kamiyama, "Magnetic Control and Electromagnetic Response of a Non-equilibrium Plasma Jet Impinging on a Flat Plate", Proceeding of the 3rd Asia-Pacific Conference on Plasma Science and Technology, Tokyo, Vol.2 (1996), pp447-452.

(4) Hideya Nishiyama, Hiromichi Tsukada, Yukio Matsushima and Shinichi Kamiyama, "The Effect of an Applied Magnetic Field on Non-equilibrium Plasma Flow along a Biased Flat Plate", Journal of Physics D: Applied Physics, Vol.30, No.20 (1997), pp.2804-2811.

(5) Hideya Nishiyama, Susumu Kawahara, Daigo Kato, Takeshi Sato and Shinichi Kamiyama, "Mixing Characteristics of a Non-equilibrium Plasma Jet in an Applied Magnetic Field", Proceedings of JSME Meeting, No.981-2 (1998), pp.103-104 [in Japanese]

(6) Oleg. P. Solonenko, Hideya Nishiyama, Takehiko Sato and Andrey. V. Smirnov, "Intelligent Integrated Plasma Laboratory for Complex Studying the Basic Phenomena under Plasma Sprayed Materials Formation", Proceedings of the14th International Symposium on Plasma Chemistry, Prague, Vol.IV (1999), pp.2133-2138.

(7) Oleg P. Solonenko, Hideya Nishiyama, Takehiko Sato and Andrey. V. Smirnov, "Concept of an Intelligent Integrated Plasma Laboratory for Studying Basic Phenomena in Plasma Spraying", Thermal Plasma Torches and Technologies, Vol.2, Thermal Plasma and Applied Technologies, Research and Development, (2001), pp.57-66, Cambridge International Science Publishing. [Book]

(8) Takehiko Sato, Masaya Shigeta, Daigo Kato and Hideya Nishiyama, "Mixing and Magnetic Effects on a Nonequilibrium Argon Plasma Jet", International Journal of Thermal Sciences, Vol.40, No.3 (2001), pp.273-278.

(9) Hideya Nishiyama, Takehiko Sato and Kazunari Katagiri, "Visualization of the In-flight Particle Velocity in the Mixed Plasma Jet under the Applied Magnetic Field", Journal of Visualization, Vol.4, No.1 (2001), p.3.

(10) Hideya Nishiyama, Takehiko Sato and Daigo Kato, "Performance of a Thermal Nonequilibrium Plasma Jet Control System", Plasma Devices and Operations, Vol.10, No.3 (2002), pp.157-168.

(11) Kotaro Kawajiri, Takehiko Sato and Hideya Nishiyama, "Experimental Analysis of a DC-RF Hybrid Plasma Flow", Surface Coatings and Technology, Vol.171, No.1-3 (2003), pp.134-139. "Student Award for Outstanding Paper in the 6th Asian Pacific Conference on Plasma Science and Technology (2003)"

(12) Kandasamy Ramachandran and Hideya Nishiyama, "Structural Analysis of Coverging Jet in a Triple Torch Plasma System", Journal of Physics D: Applied Physics, Vol.36, No.10 (2003), pp.1198-1203.

(13) Hideya Nishiyama, Takehiko Sato and Yuichi Shiozaki, "Development of Feedback Control Systems for an Oscillating Plasma Jet", Vacuum, Vol.73, No.3-4 (2004), pp.691-697.

(14) Kotaro Kawajiri, Kandasamy Ramachandran and Hideya Nishiyama, "Statistical Optimization of a DC-RF Hybrid Plasma Flow System for In-Flight Particle Treatment", International Journal of Heat and Mass Transfer, Vol.48, No.1 (2005), pp.183-190.

(15) Kohtaro Kawajiri, Kandasamy Ramachandran and Hideya Nishiyama, "Optimization of a DC-RF Hybrid Plasma Flow System Using Statistical Analysis", Plasma Processes and Polymers: 16th International Symposium on Plasma Chemistry Taormina, Italy June 22-27, 2003, (2005), pp.499-518, WILEY-VCH. [Book]

(16) Kotaro Kawajiri and Hideya Nishiyama, "In-Flight Particle Characteristics in a DC-RF Hybrid Plasma Flow System", Thin Solid Films, Vol.506-507, No.5 (2006), pp.660-664.

(17) Hideya Nishiyama, Takehiko Sato, Shota Niikura, Genta Chiba and Hidemasa Takana, "Control Performance of Interactions between Reactive Plasma Jet and Substrate", Japanese Journal of Applied Physics, Vol.45, No.10B (2006), pp.8085-8089.

(18) Hideya Nishiyama, Masaki Onodera, Junji Igawa and Tomoki Nakajima, "Characterization of In-flight Alumina Particle Process Using a Small Power DC-RF Hybrid Plasma Flow System", Journal of Thermal Spray Technology, Vol.18, No.4 (2009), pp.593-599.

(19) Hidemasa Takana, Juyong Jang, Junji Igawa, Tomoki Nakajima, Oleg. P. Solonenko and Hideya Nishiyama, "Improvement of In-flight Alumina Spheroidization Process Using a Small Power Argon DC-RF Hybrid Plasma Flow System by Helium Mixture", Journal of Thermal Spray Technology, Vol.20, No.3 (2011), pp.432-439.

(20) Juyong Jang, Hidemasa Takana, Oleg P. Solonenko and Hideya Nishiyama, "Advancement of Powder Spheroidization Process Using a Small Power DC-RF Hybrid Plasma Flow System by Sinusoidal Gas Injection", Journal of Fluid Science and Technology, Vol.6, No.5 (2011), pp.729-739.

6. Verification of Advanced Magnetorheological Fluids and Their Mini-Systematizations

(1) Tadamasa Oyama, Kazuyuki Ueno, Kazunari Katagiri, Shinichi Kamiyama and Isao Nakatani, "Study on the Characteristics of an Oscillating Flat Plate in Iron-Nitride Magnetic Fluid", Transactions of JSME, Ser. B, Vol.65, No.636 (1999), pp.2652-2657. [in Japanese]

(2) Toyohisa Fujita, Balachadran Jeyadevan and Hideya Nishiyama, "Preparation, Viscosity and Damping of Functional Fluids that Respond to Both Magnetic and Electric Fields, Powder Technology International Journal, Vol.101, No.3 (1999), pp.279-287.

(3) Toyohisa Fujita, Toshio Miyazaki, Hideya Nishiyama and Balachadran Jeyadevan, "Preparation and Properties of Low Boiling Point of Alcohol and Aceton-Based Magnetic Fluids", Journal of Magnetism and Magnetic Materials, Vol.201 (1999), pp.14-17.

(4) Seiichi Sudo, Norimitsu Wakamatsu, Toshiaki Ikohagi, Hideya Nishiyama, Motoyoshi Ohaba and Kazunari Katagiri, "Magnetic Field Effects in the Impact of a Magnetic Fluid Drop", Journal of Magnetism and Magnetic Materials, Vol. 201 (1999), pp.285-289.

(5) Seiichi Sudo, Toshiaki Ikohagi, Hideya Nishiyama and Kazunari Katagiri, "Dynamic Behavior of a Magnetic Fluid Jet Injected from a Vibrating Nozzle", Journal of Magnetism and Magnetic Materials, Vol. 201 (1999), pp.306-309.

(6) Seiichi Sudo, Hideya Nishiyama, Kazunari Katagiri and Jun Tani, "Interactions of Two Magnetic Fluid Drops in Magnetic Fields", Proceedings of the International Symposium on Non-linear Electromagnetic Systems, Pavia, (1999), pp.9 -12.

(7) Seiichi Sudo, Koji Tsuyuki, Norimitsu Wakamatsu, Toshiaki Ikohagi, Hideya Nishiyama and Motoyoshi Ohaba, "Splashing of Magnetic Fluid Drops", Proceedings of the 3rd ASME/JSME Joint Fluids Engineerings Conference, San Francisco, No.FEDSM99-7127 (1999), pp.1-6.

(8) Seiichi Sudo, Hideya Nishiyama, Kazunari Katagiri and Junji Tani, "Interactions of Magnetic Field and the Magnetic Fluid Surface", Journal of Intelligent Material Systems and Structures, Vol.10 (1999), pp.498-504.

(9) Tadamasa Oyama, Toyohisa Fujita and Hideya Nishiyama, "Physical Properties and Damping Characteristics of MR Fluids in Low Magnetic Fields", Transactions of JSME, Ser.B, Vol.66, No.646 (2000), pp.1372- 1376. [in Japanese]

(10) Jianqiang Mai, Atsushi Ando, Shuzo Oshima, Ryuichiro Yamane and Hideya Nishiyama, "Soliton Wave in a Magnetically Levitated Diamagnetic Liquid Column", Journal of Physics D: Applied Physics. Vol.33, No.6 (2000), pp.614-620.

(11) Hideya Nishiyama, Toyohisa Fujita and Tadamasa Oyama, "Damping Characteristics of MR Fluids in Low Magnetic Fields", International Journal of Modern Physics B, Vol.15, No.6-7 (2001), pp.829-836.

(12) Seiichi Sudo, Masahiro Funaoka, Tadamasa Oyama, Hideya Nishiyama and Kazunari Katagiri, "A Study on the Imapacting Drop of MR Fluid", Proceedings of the 4th International Conference on Multiphase Flow, New Orleans (2001), CD-ROM, No.150.

(13) Seiich Sudo, Masahiro Funaoka, Hideya Nishiyama and Kazunari Katagiri, "The Effect of Target Roughness on the Impact Phenomena of Magnetic Fluid Drops", Energy Conversion and Management, Vol.43, No.3 (2002), pp.289-297.

(14) Seiichi Sudo, Masahiro Funaoka and Hideya Nishiyama, "Impact of Droplets of Magneto-rheological Suspension under Applied Magnetic Fields", Journal of Intelligent Material Systems and Structures, Vol.13, No.7 (2002), pp.409-413.

(15) Hideya Nishiyama, Shigemi Fushimi and Masami Nakano, "Numerical Simulation of MR Fluids Damping Characteristics Using a Modified Bingham Model", Journal of Intelligent Material Systems and Structures, Vol.13, No.10 (2002), pp.647-653.

(16) Seiichi Sudo, Masahiro Funaoka and Hideya Nishiyama, "Sequential Impact of Two Magnetic Fluid Droplets on a Papaer Surface", Journal of Magnetism and Magnetic Materials, Vol.252 (2002), pp.283-286.

(17) Seiichi Sudo, Kazutaka Ise, Hideya Nishiyama and Junji Tani, "Frequency Characteristics of a Magnet-magnetic Fluid Element on a Vibrating Table", International Journal of Applied Electromagnetics and Mechanics, Vol.14 (2002), pp.451-454.

(18) Seiichi Sudo, A. Nakagawa, Kunio Shimada and Hideya Nishiyama, "Interactions of Two Function Fluid Drops in a Magnetic Field", Magnetohydrodynamics, Vol.39, No.3 (2003), pp.361-368.

(19) Hideya Nishiyama, Kazunari Katagiri, Katsuhisa Hamada, Kazuto Kikuchi, Katsuhiko Hata, Park Sang-Kyu and Masami Nakano, "Evaluations of Cluster Structure and Magneto-rheology of MR Suspensionsl", Abstracts of the Ninth International Conference on Electrorheological (ER) Fluids and Magneto-rheological (MR) Suspensions, (2004), PC-09.

(20) Hideya Nishiyama, Masahiro Watanabe and Hiroshi Yamaguchi, "Analysis of MR Fluids Flow in a Rectangular Channel Considering Magneto-Rheological Properties", Abstracts of the Ninth International Conference on Electrorheological (ER) Fluids and Magneto-rheological (MR) Suspensions, (2004), PC-10.

(21) Seiichi Sudo, A. Nakagawa, Kunio Shimada and Hideya Nishiyama, "Shape Response of Functional Fluid Drops in Alternating Magnetic Fields", Journal of Magnetism and Magnetic Materials, Vol.289 (2005), pp.321-324.

(22) Hideya Nishiyama, Masahiro Watanabe and Hiroshi Yamaguchi, "Analysis of MR Fluids Flow in a Rectangular Channel Considering Magneto-rheological Properties", International Journal of Modern Physics B, Vol.19, Nos.7-9 (2005), pp.1276-1282.

(23) Hideya Nishiyama, Kazunari Katagiri, Katsuhisa Hamada, Kazuto Kikuchi, Katsuhiko Hata, Park Sang-Kyu and Masami Nakano, "Evaluations of Cluster Structure and Magneto-rheology of MR Suspensions", International Journal of Modern Physics B, Vol.19, Nos.7-9, (2005), pp.1437-1442.

(24) Hiroshi Yamaguchi, Daisuke Inoue, Kunio Shimada, Shigemitsu Shuchi and Hideya Nishiyama, "Pressure Characteristics of ER Fluid in Model Damper", International Journal of Modern Physics B, Vol.19, Nos.7-9 (2005), pp.1598-1604.

(25) Seiichi Sudo, Yuji Takaki, Yasunari Hashiguchi and Hideya Nishiyama, "Magnetic Fluid Devices for Driving Micro Machines", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.464-470.

(26) Masami Nakano, Akira Satou, Yoshitake Sugamata and Hideya Nishiyama, "Dynamic Shear Flow Behavior of Magneto-Rheological Fluid between Two Rotating Parallel Disks under Relatively Weak Magnetic Field", JSME International Journal, Ser.B, Vol.48, No.3, (2005), pp.494-500.

(27) Hiroshi Yamaguchi, Atsushi Ito, Masayuki Kuribayashi, Xin-Rong Zhang and Hideya Nishiyama, "An Experimented Study on the Flow Characteristics in a Three Dimensional Cylindrical Branching Channel", Flow Measurement and Instrumentation, Vol.16, No.4 (2005), pp.241-249.

(28) Deivandren Sivakumar, Kazunari Katagiri, Takehiko Sato and Hideya Nishiyama, "Spreading Behavior of an Impacting Drop on Structured Rough Surface", Physics of Fluids, Vol.17, No.10 (2005), 100608.

(29) Hiroshi Yamaguchi, Atushi Ito, Masayuki Kuribayashi, Xin-Rong Zhang and Hideya Nishiyama, "Basic Flow Characteristics in Three-Dimensional Branching Channel with Sudden Expansion", European Journal of Mechanics B/Fluids, Vol.25, No.6 (2006), pp.909-922.

(30) Hiroshi Yamaguchi, Xin-Rong Zhang, Atsushi Ito, Masayuki Kuribayashi and Hideya Nishiyama, "Flow Characteristics in a Three-dimensional Cylindrical Branching Channel", Engineering Computations: International Journal for Computer-Aided Engineering and Software, Vol.24, No.6 (2007), pp.636-660.

(31) Hideya Nishiyama, Hidemasa Takana, Kotoe Mizuki, Tomoki Nakjima and Kazunari Katagiri , "Evaluation of Sealing Characteristics in MR Fluid Channel Flow Relating to Magneto-Rheological Properties", AIP Conference Proceedings, Complex Systems, Eds. M. Tokuyama, I. Oppenheim and H. Nishiyama, Vol.982 (2008), pp.592-597.

(32) Hideya Nishiyama, Hidemasa Takana, Kotoe Mizuki, Hannah Weisbecker and Stefan Odenbach, "Dynamic Response of Magneto-Rheological Fluid Channel Flow with Fluid-Wall Interactions", Journal of Physics: Conference Series, 11th Conference on Electrorheological Fluids and Magnetorheological Suspensions, Vol.149 (2009), 012077 (4 pages).

(33) Seiichi Sudo, Hirayoshi Takayanagi, Tetsuya Yano and Hideya Nishiyama, "The Cavity Generated with Water Entry of a Magnetic Fluid Coated Cylindrical Magnet", Electro-Rheological Fluids and Magneto-Rheological Suspensions: Proceedings of the 12th International Conference on Electro-Rheological Fluids and Magneto-Rheological Suspensions, Philadelphia, USA, (2011), pp.708-721, World Scientific Pub. Co. Inc.

(34) Hideya Nishiyama, Hidemasa Takana, Keisuke Shinohara, Kotoe Mizuki, Kazunari Katagiri and Mokoto Ohta, "Experimental Analysis on MR Fluid Channel Flow Dynamics with Complex Fluid-Wall Interactions", Journal of Magnetism and Magnetic Materials, Vol.323, No.10 (2011), pp.1293-1297.

(35) Seiichi Sudo, Daisaku Asano, Hidemasa Takana and Hideya Nishiyama, "The Dynamic Behavior of Magnetic Fluid Absorbed to Small Permanent Magnet in Alternating Magnetic Field", Journal of Magnetism and Magnetic Materials, Vol.323, No.10 (2011), pp.1314-1318.

(36) Seiichi Sudo, Daisaku Asano, Hidemasa Takana and Hideya Nishiyama, "Alternating Magnetic Field Responses of Magnetic Fluid Drop Adsorbed to a Small Permanent Magnet", Materials Science Forum, Vol.721, (2012), pp.102-107.

(37) Sota Inomata, Seiichi Sudo, Hidemasa Takana and Hideya Nishiyama, "Vibration Characteristics of Magnetic Fluid Droplet Adsorbed to Magnetized Needlepoint in Alternating Magnetic Field", Materials Science Forum, Vol.721, (2012), pp.108-113.

(38) Seiichi Sudo, Takumi Goto, Tetsuya Yano, Muneo Futamura, Hidemasa Takana and Hideya Nishiyama, "Micro Reciprocating Actuator Using Magnetic Fluid and Two Permanent Magnets", Journal of Solid Mechanics and Materials Engineering, Vol.6, No.6 (2012), pp.555-564.

(39) Seiichi Sudo, Takumi Goto, Michihiro Shinozaki, Toshiya Kainuma, Hidemasa Takana and Hideya Nishiyama, "The Dynamic Behaviour of Magnetic Levitating Magnet-Magnetic Fluid Element in Alternating Magnetic Field", International Journal of Applied Electromagnetics and Mechanics, Vol.39, Nos.1-4 (2012), pp.595-601.

(40) Seiichi Sudo, Michihiro Shinozaki and Hideya Nishiyama, "The Dynamic Behavior of Magnet-Magnetic Fluid Systems in Alternating Magnetic Fields", Magnetohydrodynamics, Vol.49, Nos.3-4 (2013), pp.344-349.

(41) Seiichi Sudo, Hiroki Takamatsu, Tetsuya Yano, Hidemasa Takana and Hideya Nishiyama, "The Dynamic Behavior of a Micro Liquid Bridge of Magnetic Fluid in Satic and Alternating Magnetic Fields", International Journal of Applied Electromagnetics and Mechanics, Vol.45, Nos.1-4 (2014), pp.61-67.

(42) Seiichi Sudo, Michihiro Shinozaki and Hideya Nishiyama, "A Study on the Optical Diaphragm Using Magnetic Fluid and a Permanent Magnet", International Journal of Applied Electromagnetics and Mechanics, Vol.46, No.4 (2014), pp.943-949.

REPRESENTATIVE REFERENCES (1995 - )

1. Optimization of Plasma Material Processes

(1) Hideya Nishiyama, Takehiko Sato, Abraham Veefkind and Shinichi Kamiyama, "Functional Enhancement of a Non-equilibrium Plasma Jet by Seeding in the Applied Magnetic Field", Heat and Mass Transfer, Vol.30, No.5 (1995), pp.291-296.

(2) Hideya Nishiyama, Toshiaki Saito and Shinichi Kamiyama, "Numerical Simulation of a Non-equilibrium Plasma Jet in an Applied Magnetic Field Using Three-Fluid Model", Plasma Chemistry and Plasma Processing, Vol.16, No.2 (1996), pp.256-286.

(3) Seong Won Nam, Hideya Nishiyama and Shinichi Kamiyama, "Numerical Analysis on Plasma Spraying in a DC-RF Hybrid Plasma Reactor", JSME International Journal, Ser.B, Vol.39, No.1 (1996), pp.134-140.

(4) Hideya Nishiyama, Yoshihiro Muro and Shinichi Kamiyama, "Control of Temperature and Velocity Fields of RF Induction Plasma by Injecting Secondary Gas", Journal of Physics D: Applied Physics, Vol. 29, No.10 (1996), pp.2634-2643.

(5) Hideya Nishiyama, Norihiro Fukai and Shinichi Kamiyama, "Modelling of Nonequilibrium Effects in an Inductively Coupled RF Ar/He Mixed Plasma", Proceedings of the 13th International Symposium on Plasma Chemistry, Beijing, Vol.2 (1997), pp.766-771.

(6) Hideya Nishiyama, Norihiro Fukai and Shinichi Kamiyama, "Functionalization of a Nonequilibrium RF Induction Plasma by Gas Mixtures", JSME International Journal, Ser.B, Special Issue on Fluid Engineering, Vol.41 (1998), pp.502-510.

(7) Hideya Nishiyama, Masakatsu Kuzuhara, Oleg P. Solonenko and Shinichi Kamiyama, "Numerical Modeling of an Impinging Dusted Plasma Jet Controled by a Magnetic Field in a Low Pressure", Proceedings of the 15th International Thermal Spray Conference, Nice, Vol.1 (1998), pp.451-456.

(8) Hideya Nishiyama, Masakatsu Kuzuhara, Oleg P. Solonenko and Shinichi Kamiyama, "Numerical Modeling of an Impinging and Compressible Dusted Plasma Jet Controlled by a Magnetic Field", Plasma Chemistry and Plasma Processing, Vol.19, No.3 (1999), pp.363-381.

(9) Hideya Nishiyama, "Magnetic Control of Homogeneous and Dust-Laden Plasma Jets (Invited)", Pure and Applied Chemistry, Vol.71, No.10 (2000), pp.1899-1907.

(10) Hideya Nishiyama, Yukio Matsushima, Takehiko Sato and Shinichi Kamiyama, "Numerical Simulation of Mixing Effect on a Non-equilibrium Plasma Jet in an Applied Magnetic Field", JSME International Journal, Ser.B, Vol.43, No.2 (2000), pp.314-322.

(11) Hideya Nishiyama, Takehiko Sato, Shinji Ito, Takeshi Sato and Shinichi Kamiyama, "Mixing Effect on a RF Induction Nonequilibrium Plasma", Heat and Mass Transfer, Vol.36, No.5 (2000), pp.433-437.

(12) Hideya Nishiyama, "Functional Fluids and Intelligent Fluids", Edited by the Japan Society of Mechanical Engineers, Corona Publishing Co., Ltd. (2000), pp.48-92. [Book, in Japanese]

(13) Takehiko Sato and Hideya Nishiyama, "Numerical Simulation of Particle-Laden Plasma Flow in a Pipe Under an RF Electromagnetic Field", Transactions of JSME, Ser.B, Vol.66, No.645 (2000), pp.1295-1302. [in Japanese] " The Best Paper Award of the Japan Society of Mechanical Engineers (2001) "

(15) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Numerical Study Possibilities of Plasma Spraying Processes under Increased Inlet Pressure", Proceedings of the 15th International Symposium on Plasma Chemistry, Orleans, Vol.VI (2001), pp.2647-2653.

(17) Hideya Nishiyama, Yasutaka Shindo and Takayuki Watanabe, "Numerical Modelling of a Nonequilibrium RF Induction Reactive Plasma Using Multicomponent Model", Proceedings of the 15th International Symposium on Plasma Chemistry, Orleans, Vol.IV (2001), pp.1541-1546.

(18) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Optimization for Plasma Spraying Processes by Numerical Simulation", Thin Solid Films, Vol.407, No.1-2 (2002), pp.54-59.

(19) Kandasamy Ramachandran and Hideya Nishiyama, "Three-dimensional Effects of Carrier Gas and Particle Injections on the Thermofluid Fields of Plasma Jets", Journal of Physics D: Applied Physics, Vol.35, No.4 (2002), pp.307-317.

(20) Pavel Kotalik and Hideya Nishiyama, "Effect of External Magnetic Field on Arc Plasma Flow", IEEE Transactions on Plasma Science, Vol. 30, No.1 (2002), pp.160-161.

(22) Hideya Nishiyama and Masaya Shigeta, "Numerical Simulation of an Radio Frequency Inductively Coupled Plasma for the Functionalization by Seeding Vaporized Alkali Metal", The European Physical Journal, Applied Physics, Vol.18, No.2 (2002), pp.125-133.

(23) Masaya Shigeta, Takehiko Sato and Hideya Nishiyama, "Numerical Simulation of a Potassium-seeded Turbulent RF Inductively Coupled Plasma with Particles", Thin Solid Films, Vol.435, Nos.1-2 (2003), pp.5-12.

(24) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Evaluations of Ceramic Spraying Processes by Numerical Simulation", Journal of Japan Thermal Spraying Society, Vol.40, No.1 (2003), pp.9-13. [in Japanese]

(25) Kandasamy Ramachandran, Takehiko Sato and Hideya Nishiyama, "3D Modeling of Evaporation of Water Injected into a Plasma Jet", International Journal of Heat and Mass Transfer, Vol.46, No.9 (2003), pp.1653-1663.

(26) Kandasamy Ramachandran, Nobuyuki Kikukawa and Hideya Nishiyama, "3D Modeling of Strong Plasma-particle Interactions in a Plasma Jet under Dense Loading Conditions", Thin Solid Films, Vol.435, Nos.1-2 (2003), pp.298-306.

(27) Kandasamy Ramachandran and Hideya Nishiyama, "Fully Coupled 3D Modeling of Plasma-particle Interactions in a Plasma Jet", Thin Solid Films, Vol.457 (2004), pp.158-167.

(28) Takehiko Sato, Oleg P. Solonenko and Hideya Nishiyama, "Evaluations of Ceramic Spraying Processes by Numerical Simulation", Materials Transactions, Vol.45, No.6 (2004), pp.1874-1879.

(29) Deivandren Sivakumar and Hideya Nishiyama, "Analysis of Madejski Splat-Quench Solidification Model with Modified Initial Conditions", Journal of Heat Transfer, Transactions of ASME, Vol.126, No.3 (2004), pp.485-489.

(30) Deivandren Sivakumar and Hideya Nishiyama, "Spreading and Solidification of a Molten Metal Droplet Impinging on a Heated Surface", International Journal of Heat and Mass Transfer, Vol.47, Nos.19-20 (2004), pp.4469-4478.

(31) Deivandren Sivakumar and Hideya Nishiyama, "Numerical Analysis on the Impact Behavior of Molten Metal Droplets Using a Modified Splat-quench Solidification Model", Journal of Heat Transfer, Transactions of ASME, Vol.126, No.6 (2004), pp.1014-1022.

(32) Masaya Shigeta, Takehiko Sato and Hideya Nishiyama, "Computational Simulation of a Particle-laden RF Inductively Coupled Plasma with Seeded Potassium", International Journal of Heat and Mass Transfer, Vol.47, No.7 (2004), pp.707-716.

(33) Hideya Nishiyama, "JSME Mechanical Engineers' Handbook, Fundamentals, Fluids Engineering", Japan Society of Mechanical Engineers, (2006), p.187, p.189.

(34) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational Simulation of Arc Welding Process with Complex Interactions", ISIJ International, Vol.46, No.5 (2006), pp.705-711. "Physics of Welding Award (Japan Welding Society, 2006)"

(35) Juyong Jang, Hidemasa Takana, Sangkyu Park and Hideya Nishiyama, "Advancement of In-Flight Alumina Powder Spheroidization Process with Water Droplet Injection Using a Small Power DC-RF Hybrid Plasma Flow System", Journal of Thermal Spray and Technology, Vol.21, No.5 (2012), pp.900-907.

(36) Oleg P. Solonenko, Hideya Nishiyama, Andrey V. Smirnov, Hidemasa Takana and Juyong Jang, "Visualization of Arc and Plasma Flow Patterns for Advanced Material Processing", Journal of Visualization, Vol.18, (2015), in press, published online : 9 August, 2014.

2. Optimization of Environmental Processes and Plasma Medicine

(1) Takehiko Sato, Hideya Nishiyama and Makoto Kambe, "Characteristics of Breaddown Voltage at a Narrow Gap in a Non-thermal Plasma Flow", Journal of the Korean Physical Society, Vol.42 (2003), pp.782-786.

(2) Hideya Nishiyama, Takehiko Sato and Kazumune Takamura, "Performance Evaluation of Arc-electrodes Systems for High Temperature Materials Processing by Computational Simulation", Iron and Steel Institute Journal International, Vol.43, No.6 (2003), pp.950-956.

(3) Takehiko Sato, Dai Ito and Hideya Nishiyama, "Reaction Fields Analysis of a Non-thermal Plasma Flowing in a Rectangular Reactor", Thin Solid Films, Vol.457, No.1 (2004), pp.78-83.

(4) Hideya Nishiyama, Toshiki Shimizu and Takehiko Sato, "Performance Evaluation of Arc Ash Melting Systems by Computational Simulation", Iron and Steel Institute Journal International, Vol.44, No.2 (2004), pp.268-274.

(5) Takehiko Sato, Dai Ito and Hideya Nishiyama, "Reactive Flow Analysis of Nonthermal Plasma in a Cylindrical Reactor", IEEE Transactions on Industry Applications, Vol.41, No.4 (2005), pp.900-905.

(6) Takehiko Sato, Makoto Kambe and Hideya Nishiyama, "Analysis of a Methanol Decomposition Process by a Nonthermal Plasma Flow", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.432-439.

(7) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational simulation of arc welding process with complex interactions", ISIJ. Int, Vol.46, No.5 (2006), pp.705-711.

(8) Hideya Nishiyama, Tomohiko Sawada, Hidemasa Takana, Manabu Tanaka and Masao Ushio, "Computational simulation of arc melting process with complex interactions", Proc.17th Int. Symp. on Plasma Chemistry, CD-ROM, (2005). "The Best Paper Award in the 17th Int. Symposium on Plasma Chemistry (2005)"

(9) Takehiko Sato, Kazunari Fujioka, Raju Ramasamy, Takuya Urayama and Shuitsu Fujii, "Sterilization Efficacy of a Coaxial Microwave Plasma Flow at Atmospheric Pressure", IEEE Transactions on Industry Applications, Vol.42, No.2 (2006), pp.399-404.

(10) Takehiko Sato, Takashi Miyahara, Akiko Doi, Shiro Ochiai, Takuya Urayama and Tatsuyuki Nakatani, "Sterilization Mechanism for Escherichia Coli by Plasma Flow at Atmospheric Pressure", Applied Physics Letters, Vol.89, No.7 (2006), 73902.

(11) Tomohiro Shibata, Akira Ozaki, Hidemasa Takana and Hideya Nishiyama, "Water Treatment Characteristics Using Activated Air Microbubble Jet with Photochemical Reaction", Journal of Fluid Science and Technology, Vol.6, No.2 (2011), pp.242-251.

(12) Hideya Nishiyama, Ryosuke Nagai and Hidemasa Takana, "Characterization of Mutiple Bubble Jet with Streamer Discharge", IEEE Transaction on Plasma Science, Vol.39, No.11 (2011), pp.2660-2661.

(13) Qing Li, Yi-Kang Pu and Hideya Nishiyama, "Atmospheric-Pressure Dielectric Barrier Plasma Jets Elongated by Elevating External Electric Field", IEEE Transaction on Plasma Science, Vol.39, No.11 (2011), pp.2290-2291.

(14) Qing Li, Hidemasa Takana, Yi-kang Pu and Hideya Nishiyama, "An Atmospheric Pressure Quasiuniform Planar Plasma Jet Generated by Using a Dielectric Barrier Configuration", Applied Physics Letters, Vol.98, No.24 (2011), 241501.

(15) Qing Li, Hidemasa Takana, Yi-Kang Pu and Hideya Nishiyama, "A Nonequilibrium Argon-Oxygen Planar Plasma Jet Using a Half-Confined Dielectric Barrier Duct in Ambient Air", Applied Physics Letters, Vol.100, No.13 (2012), 133501.

(16) Tomohiro Shibata and Hideya Nishiyama, "Decomposition of Methylene Blue in Water Using Mist Flow Plasma Reactor", International Journal of Plasma Environmental Science and Technology, Vol.6, No.3 (2012), pp.253-259.

(17) Hideya Nishiyama, Ryosuke Nagai, Kei Niinuma and Hidemasa Takana, "Characterization of DBD Multiple Bubble Jets for Methylene Blue Decolorization", Journal of Fluid Science and Technology, Vol.8, No.1 (2013), pp.65-74.

(18) Tomohiro Shibata and Hideya Nishiyama,"Numerical Study of Chemical Reactions in a Surface Microdischarge Tube with Mist Flow Based on Experiment", Journal of Physics D: Applied Physics, Vol.47, No.10 (2014), 105203 (12 pages).

(19) Tomohiro Shibata and Hideya Nishiyama,"Acetic Acid Decomposition in a Coaxial Dielectric Barrier Discharge Tube with Mist Flow", Plasma Chemistry and Plasma Processing, Vol.34, No.6 (2014), pp.1331-1343.

(20) Hideya Nishiyama, Kei Niinuma, Shohei Shinoki and Hidemasa Takana, "Decomposition of Acetic Acid using Multiple Bubble Jets with Pulsed Electrical Discharge", Plasma Chemistry and Plasma Processing, Vol.35, (2015), in press, published online : 1 January, 2015.

3. Nano/Micro Functional Plasma Systems

(1) Masaya Shigeta and Hideya Nishiyama, "Computer Sumulation of Nano Metallic-Particle Synthesis in an Advanced RF Inductively Coupled Plasma", Proceedings of the 3rd International Symposium on Slow Dynamics in Complex Systems, (2003), pp.174-175.

(2) Masaya Shigeta, Takayuki Watanabe and Hideya Nishiyama, "Numerical Investigation for Nano-Particle Synthesis in an RF Inductively Coupled Plasma", Thin Solid Films, Vol.457, No.1 (2004), pp.192-200.

(3) Masaya Shigeta and Hideya Nishiyama, "Numerical Analysis of Metallic Nanoparticle Synthesis Using RF Inductively Coupled Plasma Flows", Journal of Heat Transfer, Transactions of ASME, Vol.127, No.11 (2005), pp.1222-1230.

(4) Lizhu Tong, Shigeru Yonemura, Hidemasa Takana and Hideya Nishiyama, "Simulation Study of SiH4 Microdischarges in a Narrow Channel", Europhysics Letters, Vol.77, No.4, (2007), 45003 (5 pages).

(5) Lizhu Tong, Shigeru Yonemura, Hidemasa Takana and Hideya Nishiyama, "Effect of Configuration on Microdischarge Structure in a Narrow Channel", Physics Letters A, Vol.371, Nos.1-2 (2007), pp.140-144.

(6) Hidemasa Takana, Kazuhiro Ogawa, Tetsuo Shoji, and Hideya Nishiyama, "Computational Simulation on Performance Enhancement of Cold Gas Dynamic Spray Processes with Electrostatic Assist", Journal of Fluids Engineering, Transactions of ASME, Vol.130, No.8 (2008), 081701 (7 pages).

(7) Hidemasa Takana, Kazuhiro Ogawa, Tetsuo Shoji and Hideya Nishiyama, "Computational Simulation of Cold Spray Process Assisted by Electrostatic Force", Powder Technology, Vol.185, No.2 (2008), pp.116-123.

(8) Hidemasa Takana, Hong Yang Li, Kazuhiro Ogawa, Tsunemoto Kuriyagawa and Hideya Nishiyama, "Computational and Experimental Studies on Cavity Filling Process by Cold Gas Dynamic Spray", Journal of Fluids Engineering, Transactions of ASME, Vol.132, No.2 (2010), 021302 (9 pages).

(10) Qing Li, Hidemasa Takana, Yi-Kang Pu and Hideya Nishiyama, "Glow-Like Helium and Filament-Like Argon Plasma Jets of Using a Dielectric Barrier Configuration at Atmospheric Pressure", IEEE Transactions on Plasma Science, Vol.42, No.10 (2014), pp.2360-2361.

4. Performance Improvement of Electromagnetic Energy Systems

(2) Hideya Nishiyama, Katsuhisa Hamada, Toshiyuki Uchii, Hiromichi Kawano and Yasunori Tanaka, "Transient Response Simulation of Downstream Thermofluid Field in a Gas Circuit Breaker during Current Interruption", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.381-388.

(3) Hidemasa Takana and Yoshihiro Okuno, "Numerical Simulation on Annular Hall MHD Conversion Device under Wide Range of Operating Condition", JSME International Journal, Ser.B, Vol.48, No.3 (2005), pp.389-396.

(4) Hidemasa Takana, Toshiyuki Uchii, Hiromichi Kawano and Hideya Nishiyama, "Real-Time Numerical Analysis on Insulation Capability Improvement of Compact Gas Circuit Breaker", IEEE Transactions on Power Delivery, Vol.22, No.3 (2007), pp.1541-1546.

(5) Jiri Jenista, Hidemasa Takana, Milan Hrabovsky and Hideya Nishiyama, "Numerical Investigation of Supersonic Hybrid Argon-Water Stabilized Arc for Biomass Gasification", IEEE Transactions on Plasma Science, Vol.36, No.4 (2008), pp.1060-1061.

(6) Hideya Nishiyama, Hidemasa Takana, Shota Niikura, Hirofumi Shimizu, Dai Furukawa, Tomoki Nakajima, Kazunari Katagiri and Yoshikatsu Nakano, "Characteristics of Ozone Jet Generated by Dielectric-Barrier Discharge", IEEE Transactions on Plasma Science, Vol.36, No.4 (2008), pp.1328-1329.

(7) Hideya Nishiyama, Kenji Tsuri, Hirofumi Shimizu, Kazunari Katagiri, Hidemasa Takana and Yoshikatsu Nakano, "Activated Air Plasma Flow Generated by Pulsed Arc Discharge for Combustion Enhancement", International Journal of Heat and Mass Transfer, Vol.52, Nos.7-8 (2009), pp.1778-1785.

(9) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, M. Bartlova, V. Aubrecht and M. Hrabovsky, "Parametric Study of Hybrid Argon-Water Stabilized Arc under Subsonic and Supersonic Regimes", High Temperature Materials and Processes, Vol.14, No.1 (2010), pp.55-70.

(10) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht, Petr Krenek, Viktor Sember and Alan Maslani, "A Comparative Numerical Study of Hybrid-Stabilized Argon-Water Electric Arc", Computer Physics Communications, Vol.182, No.9 (2011), pp.1776-1783.

(13) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Petr Krenek, Milada Bartlova and Vladimir Aubrecht, "Computer Modeling of Radiative Transfer in Hybrid-Stabilized Argon-Water Electric Arc", IEEE Transaction on Plasma Science, Vol.39, No.11 (2011), pp.2892-2893.

(14) Hidemasa Takana, Yasunori Tanaka and Hideya Nishiyama, "Computational Simulation of Reactive Species Production by Methane-Air DBD at High Pressure and High Temperature", Europhysics Letters, Vol.97, No.2 (2012), 25001 (4 pages).

(15) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht and Petr Krenek, "The Influence of Turbulence on Characteristics of a Hybrid-Stabilized Argon-Water Electric Arc", Journal of Thermal Science and Technology, Vol.8, No.2 (2013), pp.435-447.

(16) Hidemasa Takana and Hideya Nishiyama, "Numerical Simulation of High-Energy Nano-Second Pulse DBD for Combustion Enhancement in Internal Engine", 31th International Conference on Phenomena in Ionized Gases (ICPIG-2013), Granada, (2013), PS3-022.

(17) Hidemasa Takana and Hideya Nishiyama, "Numerical Simulation of Nanosecond Pulsed DBD in Lean Methane-air Mixture for Typical Conditions in Internal Engines", Plasma Sources Science and Technology, Vol.23, No.3 (2014), 034001 (9 pages).

(13) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Petr Krenek, Milada Bartlova and Vladimir Aubrecht, "Computer Modeling of Radiative Transfer in Hybrid-Stabilized Argon-Water Electric Arc", IEEE Transaction on Plasma Science,　Vol.39, No.11 (2011), pp.2892-2893.

(14) Hidemasa Takana, Yasunori Tanaka and Hideya Nishiyama, "Computational Simulation of Reactive Species Production by Methane-Air DBD at High Pressure and High Temperature", Europhysics Letters,　Vol.97, No.2 (2012), 25001 (4 pages).

(15) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Milada Bartlova, Vladimir Aubrecht and Petr Krenek, "The Influence of Turbulence on Characteristics of a Hybrid-Stabilized Argon-Water Electric Arc", Journal of Thermal Science and Technology,　Vol.8, No.2 (2013), pp.435-447.

(17) Hidemasa Takana and Hideya Nishiyama, "Numerical Simulation of Nanosecond Pulsed DBD in Lean Methane-air Mixture for Typical Conditions in Internal Engines", Plasma Sources Science and Technology,　Vol.23, No.3 (2014), 034001 (9 pages).

(18) Jiri Jenista, Hidemasa Takana, Hideya Nishiyama, Petr Krenek, Milada Bartlova and Vladimir Aubrecht, "Quasi-Laminar Flow Characteristics in Hybrid-Stabilized Argon-Water Arc Discharge for Subsonic-Supersonic Regimes", IEEE Transactions on Plasma Science,　Vol.42, No.10 (2014), pp.2632-2633.

(20) Hidemasa Tanaka, Igor V. Adamovich and Hideya Nishiyama, "Computational Simulation of Nanosecond Pulsed Discharge for Plasma Assisted Ignition", Journal of Physics: Conference Series (13th High-Tech Plasma Processes Conference (HTPP-2014)),　Vol.550, No.1 (2014), 012051 (9 pages).