David Davidson
David Davidson
Verified email at stanford.edu
Title
Cited by
Cited by
Year
Shock tube determination of ignition delay times in full-blend and surrogate fuel mixtures
BM Gauthier, DF Davidson, RK Hanson
Combustion and Flame 139 (4), 300-311, 2004
6402004
GRI-Mech—an optimized detailed chemical reaction mechanism for methane combustion
M Frenklach, H Wang, M Goldenberg, GP Smith, DM Golden, CT Bowman, ...
Gas Research Institute topical report, Gas Research Institute, Chicago, 1995
3761995
Study of the high-temperature autoignition of n-alkane/O/Ar mixtures
DC Horning, DF Davidson, RK Hanson
Journal of Propulsion and Power 18 (2), 363-371, 2002
333*2002
An improved H2/O2 mechanism based on recent shock tube/laser absorption measurements
Z Hong, DF Davidson, RK Hanson
Combustion and Flame 158 (4), 633-644, 2011
3252011
Kinetics modeling of shock-induced ignition in low-dilution CH4/O2 mixtures at high pressures and intermediate temperatures
EL Petersen, DF Davidson, RK Hanson
Combustion and flame 117 (1-2), 272-290, 1999
3031999
Jet fuel ignition delay times: Shock tube experiments over wide conditions and surrogate model predictions
SS Vasu, DF Davidson, RK Hanson
Combustion and flame 152 (1-2), 125-143, 2008
2982008
Shock tube ignition measurements of iso-octane/air and toluene/air at high pressures
DF Davidson, BM Gauthier, RK Hanson
Proceedings of the Combustion Institute 30 (1), 1175-1182, 2005
2822005
Interpreting shock tube ignition data
DF Davidson, RK Hanson
International Journal of Chemical Kinetics 36 (9), 510-523, 2004
2662004
n-Dodecane oxidation at high-pressures: Measurements of ignition delay times and OH concentration time-histories
SS Vasu, DF Davidson, Z Hong, V Vasudevan, RK Hanson
Proceedings of the Combustion Institute 32 (1), 173-180, 2009
2312009
An experimental and modeling study of propene oxidation. Part 2: Ignition delay time and flame speed measurements
SM Burke, U Burke, R Mc Donagh, O Mathieu, I Osorio, C Keesee, ...
Combustion and Flame 162 (2), 296-314, 2015
2282015
A high-temperature chemical kinetic model of n-alkane (up to n-dodecane), cyclohexane, and methyl-, ethyl-, n-propyl and n-butyl-cyclohexane oxidation at high temperatures
H Wang, E Dames, B Sirjean, DA Sheen, R Tangko, A Violi, JYW Lai, ...
JetSurF version 2 (2), 19, 2010
2192010
Recent advances in laser absorption and shock tube methods for studies of combustion chemistry
RK Hanson, DF Davidson
Progress in Energy and Combustion Science 44, 103-114, 2014
2012014
Reduced kinetics mechanisms for ram accelerator combustion
EL Petersen, RK Hanson
Journal of Propulsion and power 15 (4), 591-600, 1999
1971999
A pyrolysis mechanism for ammonia
DF Davidson, K Kohse‐Höinghaus, AY Chang, RK Hanson
International journal of chemical kinetics 22 (5), 513-535, 1990
1921990
Experimental study and modeling of shock tube ignition delay times for hydrogen–oxygen–argon mixtures at low temperatures
GA Pang, DF Davidson, RK Hanson
Proceedings of the combustion institute 32 (1), 181-188, 2009
1812009
A physics-based approach to modeling real-fuel combustion chemistry-I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations
H Wang, R Xu, K Wang, CT Bowman, RK Hanson, DF Davidson, ...
Combustion and Flame 193, 502-519, 2018
1692018
A new shock tube study of the H+ O2→ OH+ O reaction rate using tunable diode laser absorption of H2O near 2.5 μm
Z Hong, DF Davidson, EA Barbour, RK Hanson
Proceedings of the Combustion Institute 33 (1), 309-316, 2011
1572011
GRI-Mech 2. 11
CT Bowman
http://www. me. berkeley. edu/gri_mech/, 1995
1551995
Ignition delay times of Ram accelerator CH/O/diluent mixtures
EL Petersen, DF Davidson, RK Hanson
Journal of Propulsion and Power 15 (1), 82-91, 1999
1541999
Development of an aerosol shock tube for kinetic studies of low-vapor-pressure fuels
DF Davidson, DR Haylett, RK Hanson
Combustion and Flame 155 (1-2), 108-117, 2008
1442008
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Articles 1–20