Kawahara Nobuyuki | Okayama University
スポンサーリンク
概要
関連著者
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Kawahara Nobuyuki
Okayama University
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Tomita Eiji
Okayama University
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Sumida Mamoru
Mitsubishi Electric Corp.
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Tomita E
Okayama University
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Tomita Eiji
Science And Technology For Energy Conversion Graduate School Of Okayama University
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Hamamoto Y
The University Of Kitakyushu
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Kawahara Nobuyuki
Science And Technology For Energy Conversion Graduate School Of Okayama University
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Nishiyama Atsushi
Okayama University
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Hamamoto Yoshisuke
Okayama Univ.
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YOSHIYAMA Sadami
Okayama University
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Ahmed Fatma
Okayama University
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Kawahara Nobuyuki
Science and Technology for Energy Conversion, Graduate School ofOkayama University
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Fujita Shogo
Okayama University
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Tomita Eiji
Department Of Applied Mechanics School Of Engineering Okayama University
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Tomita Eiji
Department Of Mechanical Engineering Okayama University
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Piao Zhenyu
Okayama University
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Yamaguchi Ryoichi
Okayama University
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HAMAMOTO Yoshisuke
The University of Kitakyushu
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PIAO Zhen-Yu
Okayama University
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Kasahara Daisuke
Science and Technology for Energy Conversion, Graduate School of Okayama University
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Kasahara Daisuke
Science And Technology For Energy Conversion Graduate School Of Okayama University
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Esmail Mohamed
Okayama University
著作論文
- Characterization of the Spray of the DISI Multi-hole Injector by Means of Phase Doppler Anemometer
- TED-AJ03-403 COMBUSTION AND EXHAUST EMISSIONS IN A HYDROGEN FUELED ENGINE IGNITED WITH LIGHT OIL
- (2-08) Effects of Swirl Turbulent Flow Field and Inhomogeneous Concentration Field on Combustion of Fuel-Air Mixture in a Constant Volume Vessel((SI-3)S. I. Engine Combustion 3-Flow and Combustion)
- B307 Flame Propagation of Inhomogeneous Feel-Air Mixture with Swirl in a Constant-Volume Vessel(Turbulent flame-2)
- E308 A Study on Hydrogen Combustion Ignited with Light Oil in a Dual Fuel Engine(Engine performance)
- Liquid Sheet Break-up of High-Pressure Swirl Injector for DISI Engine(Spray Technologies, Atomization)
- SC3-2: Effect of Nozzle Geometry on Atomization of Transient Spray from Port Fuel Injector(SC: Spray and Spray Combustion,General Session Papers)
- SC4-1: Spray Behavior near the Nozzle of a DISI Multi-Hole Injector Using Phase Doppler Anemometer(SC: Spray and Spray Combustion,General Session Papers)