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Fletcher Miller
Fletcher Miller
Department of Mechanical Engineering, SDSU
在 sdsu.edu 的电子邮件经过验证
标题
引用次数
引用次数
年份
Microgravity Combustion: Fire in Free Fall
JS T'ien, HY Shih, CB Jiang, HD Ross, FJ Miller, AC Fernandez-Pello, ...
Edited by: Ross, HD Academic Press, 2001
203*2001
Flame spread over thin fuels in actual and simulated microgravity conditions
SL Olson, FJ Miller, S Jahangirian, IS Wichman
Combustion and Flame 156 (6), 1214-1226, 2009
1242009
Thermal modeling of a small-particle solar central receiver
FJ Miller
Journal of solar energy engineering 122, 23, 2000
1072000
Experimental comparison of opposed and concurrent flame spread in a forced convective microgravity environment
SL Olson, FJ Miller
Proceedings of the Combustion Institute 32 (2), 2445-2452, 2009
802009
Mechanisms of flame spread and smolder wave propagation
HDR Jiang, FJ Miller, AC Fernandez-Pello, JL Torero, D Walther
Microgravity Combustion: Fire in Free Fall, 299, 2001
702001
Characterizing fingering flamelets using the logistic model
SL Olson, FJ Miller, IS Wichman
Combustion Theory and Modelling 10 (2), 323-347, 2006
662006
Detailed experiments of flame spread across deep butanol pools
HD Ross, FJ Miller
Symposium (International) on Combustion 26 (1), 1327-1334, 1996
661996
Theoretical analysis of a high-temperature small-particle solar receiver
F Miller, R Koenigsdorff
Solar Energy Materials 24 (1-4), 210-221, 1991
621991
Further observations of flame spread over laboratory-scale alcohol pools
FJ Miller, HD Ross
Symposium (International) on Combustion 24 (1), 1703-1711, 1992
481992
Radiative, thermal, and kinetic regimes of opposed-flow flame spread: A comparison between experiment and theory
S Bhattacharjee, A Simsek, F Miller, S Olson, P Ferkul
Proceedings of the Combustion Institute 36 (2), 2963-2969, 2017
462017
Flame spread across liquid pools with very low-speed opposed or concurrent airflow
HD Ross, FJ Miller
Symposium (International) on Combustion 27 (2), 2723-2729, 1998
451998
Smoke visualization of the gas-phase flow during flame spread across a liquid pool
FJ Miller, HD Ross
Symposium (International) on Combustion 27 (2), 2715-2722, 1998
441998
Thermodynamic Cycles for a Small Particle Heat Exchange Receiver Used in Concentrating Solar Power Plants
K Kitzmiller, F Miller
Journal of Solar Energy Engineering 133, 031014, 2011
412011
Thermodynamic Cycles for Small Particle Heat Exchange Receivers used in Concentrating Solar Power Plants
K Kitzmiller, F Miller
4th International Conference on Energy Sustainability, 2010
412010
Microgravity Flame Spread in Exploration Atmospheres: Pressure, Oxygen, and Velocity Effects on Opposed and Concurrent Flame Spread
SL Olson, GA Ruff, FJ Miller
SAE International Journal of Aerospace 1 (1), 239-246, 2009
342009
Microgravity Flame Spread in Exploration Atmospheres: Pressure, Oxygen, and Velocity Effects on Opposed and Concurrent Flame Spread
S Olson, G Ruff, F Miller
NASATechnical Memorandum, 2008
342008
Solar radiant heating of gas-particle mixtures
AJ Hunt, J Ayer, P Hull, R McLaughlin, F Miller, JE Noring, R Russo, ...
NASA STI/Recon Technical Report N 87, 28184, 1986
341986
Heat transfer characteristics of a gas-particle mixture under direct radiant heating
WW Yuen, FJ Miller, AJ Hunt
International communications in heat and mass transfer 13 (2), 145-154, 1986
341986
Performance analysis and preliminary design optimization of a Small Particle Heat Exchange Receiver for solar tower power plants
P Fernández, FJ Miller
Solar Energy 112, 458-468, 2015
322015
Effect of variable guide vanes and natural gas hybridization for accommodating fluctuations in solar input to a gas turbine
K Kitzmiller, F Miller
Journal of Solar Energy Engineering 134 (4), 041008, 2012
272012
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