Haowei Wang
Haowei Wang
Assistant Professor, Mechanical Engineering, California State University Fullerton
Verified email at - Homepage
Cited by
Cited by
A Jet Fuel Surrogate Formulated by Real Fuel Properties
S Dooley, SH Won, M Chaos, J Heyne, Y Ju, FL Dryer, K Kumar, CJ Sung, ...
Western States Meeting of the Combustion Institute, 2010
The experimental evaluation of a methodology for surrogate fuel formulation to emulate gas phase combustion kinetic phenomena
S Dooley, SH Won, J Heyne, TI Farouk, Y Ju, FL Dryer, K Kumar, X Hui, ...
Combustion and Flame 159 (4), 1444-1466, 2012
Autoignition studies of conventional and Fischer–Tropsch jet fuels
H Wang, MA Oehlschlaeger
Fuel, 2012
The combustion kinetics of a synthetic paraffinic jet aviation fuel and a fundamentally formulated, experimentally validated surrogate fuel
S Dooley, SH Won, S Jahangirian, Y Ju, FL Dryer, H Wang, ...
Combustion and Flame, 2012
Soot formation in combustion: mechanisms and models
M Frenklach, H Wang
Springer series in chemical physics 59, 165-192, 1994
The combustion properties of 2, 6, 10-trimethyl dodecane and a chemical functional group analysis
SH Won, S Dooley, PS Veloo, H Wang, MA Oehlschlaeger, FL Dryer, Y Ju
Combustion and Flame 161 (3), 826-834, 2014
An experimental and kinetic modeling study of the autoignition of α-methylnaphthalene/air and α-methylnaphthalene/n-decane/air mixtures at elevated pressures
H Wang, SJ Warner, MA Oehlschlaeger, R Bounaceur, J Biet, PA Glaude, ...
Combustion and Flame 157 (10), 1976-1988, 2010
Laminar burning velocities of trifluoromethane–methane mixtures: experiment and numerical simulation
Y Saso, DL Zhu, H Wang, CK Law, N Saito
Combustion and Flame 114 (3-4), 457-468, 1998
Reduced mechanism of soot formation—Applicationto natural gas-fueled diesel combustion
Y Yoshihara, A Kazakov, H Wang, M Frenklach
Symposium (International) on Combustion 25 (1), 941-948, 1994
An optimized kinetics model for natural gas combustion
M Frenklach, H Wang, CT Bowman, RK Hanson, GP Smith, DM Golden, ...
25th Symposium (International) on Combustion, Poster 26, 1994
Soot formation in counterflow ethylene diffusion flames from 1 to 2.5 atmospheres
DX Du, H Wang, CK Law
Combustion and flame 113 (1-2), 264-270, 1998
An optimized detailed chemical reaction mechanism for methane combustion
M Frenklach, H Wang, M Goldenberg, GP Smith, DM Golden, CT Bowman, ...
GRI-Mech, Berkeley, CA, Report No. GRI-95/0058, 1995
Prospects for Biofuels: A Review
MA Oehlschlaeger, H Wang, MN Sexton
Journal of Thermal Science and Engineering Applications 5 (2), 2013
On mild and vigorous oxidation of mixtures of chlorinated hydrocarbons in droplet burning
H Wang, CJ Sung, CK Law
Combustion and flame 110 (1-2), 222-238, 1997
Experimental study of the high-temperature autoignition of tetralin
H Wang, WJ Gerken, W Wang, MA Oehlschlaeger
Energy & fuels 27 (9), 5483-5487, 2013
Soot Formation in Combustion (H. Bockhorn, ed.)
M Frenklach, H Wang
Springer-Verlag, Berlin, 1994
Gas Research Institute Report GRI-95/0058
M Frenklach, H Wang, M Goldenberg, GP Smith, DM Golden, CT Bowman, ...
Gas Research Institute, 1995
Shock tube ignition delay time measurements for methyl propanoate and methyl acrylate: Influence of saturation on small methyl ester high‐temperature reactivity
H Wang, MA Oehlschlaeger
International Journal of Chemical Kinetics 52 (10), 712-722, 2020
Gas Research Institute, Chicago
M Frenklach, H Wang, M Goldenberg, GP Smith, DM Golden, CT Bowman, ...
IL report GRI-95/0058, 1995, disponible sur: http://www. me. berkeley. edu …, 1995
An Experimentally Validated Surrogate Fuel for the Combustion Kinetics of S-8, a Synthetic Paraffinic Jet Aviation Fuel
S Dooley, SH Won, S Jahangirian, Y Ju, FL Dryer, H Wang, ...
AIAA Aerospace Sciences Meeting, 2012
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