- Author
-
Amantini, G.
|
Frank, J. H.
|
Smooke, M. D.
|
Gomez, A.
- Title
- Computational and Experimental Study of Steady Axisymmetric Non-Premixed Methane Counterflow Flames.
- Coporate
- Yale Univ., New Haven, CT
Sandia National Laboratories, Livermore, CA
- Journal
-
Combustion Theory and Modelling,
Vol. 11,
No. 1,
47-72,
February 2007
- Keywords
-
counterflow flames
|
methane
|
nonpremixed flames
|
diffusion flames
|
vorticity
|
formulations
|
laminar flames
|
burners
|
reaction rate
|
oxygen
|
equations
|
velocity
|
flame structure
|
oxidizers
|
heat release
|
chemical reactions
- Identifiers
- Particle Image Velocimetry (PIV); vorticity-velocity formulation; perform a computational study of axisymmetric methane counterflow flames; OH LIF, CO LIF and reaction rate imaging; inlet experimental velocity boundary conditions; compositions (mole fractions) of the fuel and oxidizer streams for flames; flamesheet; chemical reactions that contribute to the peak of the primary heat release; chemical reactions that contribute to the peak of the secondary heat release