Masaya Muto
Masaya Muto
確認したメール アドレス: meijo-u.ac.jp
タイトル
引用先
引用先
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
812015
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
722015
Negative Magnus lift on a rotating sphere at around the critical Reynolds number
M Muto, M Tsubokura, N Oshima
Physics of Fluids 24 (1), 014102, 2012
612012
Numerical simulation of ignition in pulverized coal combustion with detailed chemical reaction mechanism
M Muto, K Yuasa, R Kurose
Fuel 190, 136-144, 2017
452017
Numerical simulation of soot formation in pulverized coal combustion with detailed chemical reaction mechanism
M Muto, K Yuasa, R Kurose
Advanced Powder Technology 29 (5), 1119-1127, 2018
182018
A DNS study on effect of coal particle swelling due to devolatilization on pulverized coal jet flame
M Muto, K Tanno, R Kurose
Fuel 184, 749-752, 2016
162016
Negative magnus effect on a rotating sphere at around the critical reynolds number
M Muto, H Watanabe, M Tsubokura, N Oshima
Journal of Physics: Conference Series 318 (3), 032021, 2011
152011
Statistics of reaction progress variable and mixture fraction gradients of a pulverised coal jet flame using Direct Numerical Simulation data
U Ahmed, CT d’Auzay, M Muto, N Chakraborty, R Kurose
Proceedings of the Combustion Institute 37 (3), 2821-2830, 2019
92019
Numerical visualization of boundary layer transition when negative Magnus effect occurs
M Muto, M Tsubokura, N Oshima
Journal of visualization 15 (3), 261-268, 2012
92012
Direct numerical simulation of ignition of syngas (H2/CO) mixtures with temperature and composition stratifications relevant to HCCI conditions
RN Roy, M Muto, R Kurose
International Journal of Hydrogen Energy 42 (41), 26152-26161, 2017
82017
Large eddy simulation of pulverized coal combustion in multi-burner system–effect of in-furnace blending method on NO emission
M Muto, H Watanabe, R Kurose
Advanced Powder Technology 30 (12), 3153-3162, 2019
72019
Large-eddy simulation of turbulent combustion in multi combustors for L30A gas turbine engine
K Hirano, Y Nonaka, Y Kinoshita, M Muto, R Kurose
Turbo Expo: Power for Land, Sea, and Air 56680, V04AT04A042, 2015
52015
Effects of parcel modeling on particle dispersion and interphase transfers in a turbulent mixing layer
H Watanabe, D Uesugi, M Muto
Advanced Powder Technology 26 (6), 1719-1728, 2015
42015
Effect of parcel models on turbulent property and scalar diffusion yield from dispersed liquid particles in a particle-laden turbulent mixing layer
M Muto, D Uesugi, H Watanabe, H Makino
Journal of the Society of Powder Technology, Japan 50 (9), 646-655, 2013
32013
Effects of parcel model on the particle motion in a turbulent mixing layer
H Watanabe, D Uesugi, M Muto
Journal of the Society of Powder Technology, Japan 51 (12), 846-855, 2014
22014
Effect of fuel ratio of bituminous coals on pulverized coal combustion in multi-burner system using Large-eddy simulation
M Muto, H Watanabe, R Kurose
Proc. ECCOMAS, Crete, 2016
12016
Prediction of NOx Formation in Pulverized Coal Combustion Fields Using Large-eddy Simulation
M Muto
Journal of the Society of Powder Technology, Japan 52 (11), 658-662, 2015
12015
Numerical simulation of negative Magnus force on a rotating sphere
M Muto, M Tsubokura, N Oshima
APS 63, MB. 004, 2010
12010
PAPER PRECIPITATION CHROMATOGRAPHY OF INORGANIC CATIONS WITH RUBEANIC ACID. 1. SEPARATION OF COPPER, COBALT AND NICKEL
H Nagai, M MUTO
NIPPON KAGAKU ZASSHI 82 (6), 694-&, 1961
11961
Soot formation characteristics in a pulverized coal flame formed in a swirling flow
J Hayashi, K Tainaka, T Fukada, M Muto, H Kawanabe, R Kurose
Advanced Powder Technology 31 (9), 3921-3927, 2020
2020
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