Related references
Note: Only part of the references are listed.Revisiting effective Lewis number of combustible mixtures
Lu-Qing Wang et al.
FUEL (2023)
Lewis number effects on lean premixed combustion characteristics of multi-component fuel blends
S. Zitouni et al.
COMBUSTION AND FLAME (2022)
Propagation Characteristics of Stoichiometric Inert-Diluted Methane-N2O Flames
Venera Giurcan et al.
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2022)
Nitrous Oxide: Oxidizer and Promoter of Hydrogen and Hydrocarbon Combustion
Domnina Razus
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2022)
Explosion behaviors of hydrogen-nitrous oxide mixtures at reduced initial pressures
Lu-Qing Wang et al.
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION (2021)
Self-similar propagation and turbulent burning velocity of CH4/H2/air expanding flames: Effect of Lewis number
Xiao Cai et al.
COMBUSTION AND FLAME (2020)
Experimental and kinetic modeling study of laminar burning velocities of NH3/syngas/air premixed flames
Xinlu Han et al.
COMBUSTION AND FLAME (2020)
Laminar flame speed, Markstein length, and cellular instability for spherically propagating methane/ethylene-air premixed flames
Hee J. Kim et al.
COMBUSTION AND FLAME (2020)
Spherically expanding flame in silane-hydrogen-nitrous oxide-argon mixtures
Remy Mevel et al.
COMBUSTION AND FLAME (2020)
Laminar burning velocities of C2H4/N2O flames: Experimental study and its chemical kinetics mechanism
Wang Weilong et al.
COMBUSTION AND FLAME (2019)
Self-acceleration and global pulsation in hydrodynamically unstable expanding laminar flames
Jialong Huo et al.
COMBUSTION AND FLAME (2018)
Methane-unconventional oxidant flames. Laminar burning velocities of nitrogen-diluted methane-N2O mixtures
Domnina Razus et al.
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION (2018)
The unimportance of the reaction H2 + N2O ⇆ H2O + N2: A shock-tube study using H2O time histories and ignition delay times
Clayton R. Mulvihill et al.
COMBUSTION AND FLAME (2018)
Assessment of the method for calculating the Lewis number of H2/CO/CH4 mixtures and comparison with experimental results
Denis Lapalme et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2017)
Detonation in hydrogen-nitrous oxide-diluent mixtures: An experimental and numerical study
Remy Mevel et al.
COMBUSTION AND FLAME (2015)
Experimental study of spherical-flame acceleration mechanisms in large-scale propane-air flames
C. Regis Bauwens et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2015)
On the effective Lewis number formulations for lean hydrogen/hydrocarbon/air mixtures
Nicolas Bouvet et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2013)
Experimental study of minimum ignition energy of lean H2-N2O mixtures
S. Coronel et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2013)
An experimental investigation on self-acceleration of cellular spherical flames
Fujia Wu et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2013)
Effects of N2O addition on the ignition of H2-O2 mixtures: Experimental and detailed kinetic modeling study
O. Mathieu et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2012)
Laminar burning velocities and flame characteristics of CO-H2-CO2-O2 mixtures
Jinhua Wang et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2012)
On the extraction of laminar flame speed and Markstein length from outwardly propagating spherical flames
Zheng Chen
COMBUSTION AND FLAME (2011)
Flame burning speeds and combustion characteristics of undiluted and nitrogen-diluted hydrogen-nitrous oxide mixtures
S. P. M. Bane et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2011)
Critical energy for direct initiation of spherical detonations in H2/N2O/Ar mixtures
Bo Zhang et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2011)
A chemical kinetic study of the oxidation of silane by nitrous oxide, nitric oxide and oxygen
R. Mevel et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2011)
Oxygen atom kinetics in silane-hydrogen-nitrous oxide mixtures behind reflected shock waves
S. Javoy et al.
CHEMICAL PHYSICS LETTERS (2010)
Nonlinear effects in the extraction of laminar flame speeds from expanding spherical flames
A. P. Kelley et al.
COMBUSTION AND FLAME (2009)
LAMINAR BURNING VELOCITIES FOR HYDROGEN-, METHANE-, ACETYLENE-, AND PROPANE-NITROUS OXIDE FLAMES
O. A. Powell et al.
COMBUSTION SCIENCE AND TECHNOLOGY (2009)
Spherical expanding flames in H2-N2O-Ar mixtures: flame speed measurements and kinetic modeling
R. Mevel et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2009)
Effects of hydrocarbon addition on cellular instabilities in expanding syngas-air spherical premixed flames
Tran Manh Vu et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2009)
Hydrogen-nitrous oxide delay times: Shock tube experimental study and kinetic modelling
R. Mevel et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2009)
Transformation of premixed flame behavior with hydrodynamic and body-force instabilities
Kuo-Long Pan
PHYSICS OF FLUIDS (2008)
The kinetics of autoignition of rich N2O-H2-O2-Ar mixtures at high temperatures
I. N. Kosarev et al.
COMBUSTION AND FLAME (2007)
On transition to cellularity in expanding spherical flames
G. Jomaas et al.
JOURNAL OF FLUID MECHANICS (2007)
Self-acceleration and fractal structure of outward freely propagating flames
MA Liberman et al.
PHYSICS OF FLUIDS (2004)
Cellular instabilities and self-acceleration of outwardly propagating spherical flames
OC Kwon et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2002)
Wrinkling of spherically expanding flames
R Addabbo et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2002)
The dependence of the Markstein length on stoichiometry
JK Bechtold et al.
COMBUSTION AND FLAME (2001)
Flammability limits, ignition energy, and flame speeds in H2-CH4-NH3-N2O-O2-N2 mixtures
UJ Pfahl et al.
COMBUSTION AND FLAME (2000)