Mitchell Smooke
Mitchell Smooke
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Cited by
Cited by
Chemkin-II: A Fortran chemical kinetics package for the analysis of gas-phase chemical kinetics
RJ Kee, FM Rupley, JA Miller
Sandia National Lab.(SNL-CA), Livermore, CA (United States), 1989
Reduced kinetic mechanisms and asymptotic approximations for methane-air flames: a topical volume
MD Smooke
Reduced Kinetic Mechanisms and Asymptotic Approximations for Methane-Air …, 1991
Nineteenth Symposium (International) on Combustion
IW Smith, SC Hill, LD Smoot
The Combustion Institute 1045, 1982
CHEMKIN collection, release 3.6, reaction design
RJ Kee, FM Rupley, JA Miller, ME Coltrin, JF Grcar, E Meeks, HK Moffat, ...
Inc., San Diego, CA 20 (0), 0, 2000
Computational and experimental study of soot formation in a coflow, laminar diffusion flame
MD Smooke, CS McEnally, LD Pfefferle, RJ Hall, MB Colket
Combustion and Flame 117 (1-2), 117-139, 1999
CHEMKIN collection
RJ Kee
Release 3, 1999
CHEMKIN Release 4.1
RJ Kee, FM Rupley, JA Miller, ME Coltrin, JF Grcar, E Meeks, HK Moffat, ...
Reaction Design, San Diego, CA, 2006
Development of an experimental database and kinetic models for surrogate jet fuels
T Edwards, M Colket, N Cernansky, F Dryer, F Egolfopoulos, D Friend, ...
45th AIAA aerospace sciences meeting and exhibit, 770, 2007
A comparison between numerical calculations and experimental measurements of the structure of a counterflow diffusion flame burning diluted methane in diluted air
MD Smooke, IK Puri, K Seshadri
Symposium (International) on Combustion 21 (1), 1783-1792, 1988
Aerosol dynamic processes of soot aggregates in a laminar ethene diffusion flame
R Puri, TF Richardson, RJ Santoro, RA Dobbins
Combustion and flame 92 (3), 320-333, 1993
An experimental and theoretical investigation of the dilution, pressure and flow-field effects on the extinction condition of methane-air-nitrogen diffusion flames
HK Chelliah, CK Law, T Ueda, MD Smooke, FA Williams
Symposium (International) on Combustion 23 (1), 503-511, 1991
Solution of burner-stabilized premixed laminar flames by boundary value methods
MD Smooke
Journal of Computational Physics 48 (1), 72-105, 1982
Soot formation in laminar diffusion flames
MD Smooke, MB Long, BC Connelly, MB Colket, RJ Hall
Combustion and Flame 143 (4), 613-628, 2005
Numerical solution of two-dimensional axisymmetric laminar diffusion flames
MD Smooke, RE Mitchell, DE Keyes
Combustion Science and Technology 67 (4-6), 85-122, 1986
Extinction of strained premixed laminar flames with complex chemistry
V Giovangigli, MD Smooke
Combustion science and technology 53 (1), 23-49, 1987
Kinetic modeling of the oxidation of ammonia in flames
JA Miller, MD Smooke, RM Green, RJ Kee
Combustion Science and Technology 34 (1-6), 149-176, 1983
Experimental and computational study of CH, CH*, and OH* in an axisymmetric laminar diffusion flame
KT Walsh, MB Long, MA Tanoff, MD Smooke
Symposium (international) on combustion 27 (1), 615-623, 1998
Computational and experimental study of JP-8, a surrogate, and its components in counterflow diffusion flames
JA Cooke, M Bellucci, MD Smooke, A Gomez, A Violi, T Faravelli, E Ranzi
Proceedings of the Combustion Institute 30 (1), 439-446, 2005
Computational and experimental study of axisymmetric coflow partially premixed methane/air flames
BAV Bennett, CS McEnally, LD Pfefferle, MD Smooke
Combustion and Flame 123 (4), 522-546, 2000
Toward a comprehensive chemical kinetic mechanism for the oxidation of acetylene: comparison of model predictions with results from flame and shock tube experiments
JA Miller, RE Mitchell, MD Smooke, RJ Kee
Symposium (International) on Combustion 19 (1), 181-196, 1982
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