Ryoichi Kurose
Ryoichi Kurose
Professor of Mechanical Engineering and Science, Kyoto University
Verified email at - Homepage
Cited by
Cited by
Drag and lift forces on a rotating sphere in a linear shear flow
R Kurose, S Komori
Journal of Fluid Mechanics 384, 183-206, 1999
Powder technology: fundamentals of particles, powder beds, and particle generation
H Masuda, K Higashitani, H Yoshida
CRC press, 2006
Numerical analysis of pulverized coal combustion characteristics using advanced low-NOx burner
R Kurose, H Makino, A Suzuki
Fuel 83 (6), 693-703, 2004
Combustion mechanism of liquid fuel spray in a gaseous flame
M Nakamura, F Akamatsu, R Kurose, M Katsuki
Physics of Fluids 17 (12), 123301, 2005
Application of optical diagnostics techniques to a laboratory-scale turbulent pulverized coal flame
S Hwang, R Kurose, F Akamatsu, H Tsuji, H Makino, M Katsuki
Energy & fuels 19 (2), 382-392, 2005
Pulverized coal combustion characteristics of high-fuel-ratio coals
R Kurose, M Ikeda, H Makino, M Kimoto, T Miyazaki
Fuel 83 (13), 1777-1785, 2004
Characteristics of flamelets in spray flames formed in a laminar counterflow
H Watanabe, R Kurose, SM Hwang, F Akamatsu
Combustion and Flame 148 (4), 234-248, 2007
Large eddy simulation of a solid-fuel jet flame
R Kurose, H Makino
Combustion and Flame 135 (1-2), 1-16, 2003
Analysis and flamelet modelling for spray combustion
Y Baba, R Kurose
Journal of Fluid Mechanics 612, 45-79, 2008
Effects of ambient pressure, gas temperature and combustion reaction on droplet evaporation
T Kitano, J Nishio, R Kurose, S Komori
Combustion and Flame 161 (2), 551-564, 2014
Combustion characteristics of high ash coal in a pulverized coal combustion
R Kurose, M Ikeda, H Makino
Fuel 80 (10), 1447-1455, 2001
Experimental and numerical investigation of thermo-acoustic instability in a liquid-fuel aero-engine combustor at elevated pressure: Validity of large-eddy simulation of spray …
S Tachibana, K Saito, T Yamamoto, M Makida, T Kitano, R Kurose
Combustion and Flame 162 (6), 2621-2637, 2015
Strong correlation between the drag coefficient and the shape of the wind sea spectrum over a broad range of wind speeds
N Takagaki, S Komori, N Suzuki, K Iwano, T Kuramoto, S Shimada, ...
Geophysical Research Letters 39 (23), 2012
Direct numerical simulation of a pulverized coal jet flame employing a global volatile matter reaction scheme based on detailed reaction mechanism
T Hara, M Muto, T Kitano, R Kurose, S Komori
Combustion and Flame 162 (12), 4391-4407, 2015
Evaporation and combustion of multicomponent fuel droplets
T Kitano, J Nishio, R Kurose, S Komori
Fuel 136, 219-225, 2014
A numerical simulation of pulverized coal combustion employing a tabulated-devolatilization-process model (TDP model)
N Hashimoto, R Kurose, SM Hwang, H Tsuji, H Shirai
Combustion and Flame 159 (1), 353-366, 2012
Effects of radiation on spray flame characteristics and soot formation
H Watanabe, R Kurose, S Komori, H Pitsch
Combustion and Flame 152 (1-2), 2-13, 2008
Effects of moisture in coal on pulverized coal combustion characteristics
R Kurose, H Tsuji, H Makino
Fuel 80 (10), 1457-1465, 2001
Numerical simulations of pulverized coal combustion
R Kurose, H Watanabe, H Makino
KONA Powder and Particle Journal 27, 144-156, 2009
Large-eddy simulation of pulverized coal jet flame–Effect of oxygen concentration on NOx formation
M Muto, H Watanabe, R Kurose, S Komori, S Balusamy, S Hochgreb
Fuel 142, 152-163, 2015
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