Add to ORKGTheoretical models of an axisymmetric laminar diffusion flame are discussed, with an emphasis on the behavior of such flames at increasing pressures. The flame-sheet or Burke-Schumann model (in terms of Bessel functions) and various boundary layer numerical solutions are presented and their results compared with experimental data. The most promising theoretical model combines the numerical flow field solution of the Patankar-Spalding computer code with the Pratt-Wormeck chemical reaction subroutine. The flame shapes for pressures of 1, 5, 10, 20, and 50 atmospheres were computed and agree remarkably well with experimental data. There is a noticeable shape change with pressure, believed to be a result of buoyancy effects. The chemical concen...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...
Theoretical and numerical studies of laminar jet diffusion flames have been conducted in the limit o...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...
A mathematical model is presented for the description of axisymmetric laminar-jet diffusion flames. ...
The structure of confined laminar spray diffusion flames is investigated numerically by solving the ...
The structure of laminar diffusion flames is analyzed in the limiting case of large, although finite...
The structure of laminar diffusion flames is analyzed in the limiting case of large, although finite...
Laminar flame propagation equations in stagnation flow using flat flame diffusion burne
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
A numerical study of an axisymmetric coflow laminar ethylene-air diffusion flame at atmospheric pres...
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
The ignition and structure of a reacting compressible mixing layer is considered using finite rate c...
Work performed during the first six months of the project duration for NASA Grant (NAG-1-861) is rep...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...
Theoretical and numerical studies of laminar jet diffusion flames have been conducted in the limit o...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...
A mathematical model is presented for the description of axisymmetric laminar-jet diffusion flames. ...
The structure of confined laminar spray diffusion flames is investigated numerically by solving the ...
The structure of laminar diffusion flames is analyzed in the limiting case of large, although finite...
The structure of laminar diffusion flames is analyzed in the limiting case of large, although finite...
Laminar flame propagation equations in stagnation flow using flat flame diffusion burne
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
A numerical study of an axisymmetric coflow laminar ethylene-air diffusion flame at atmospheric pres...
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
The ignition and structure of a reacting compressible mixing layer is considered using finite rate c...
Work performed during the first six months of the project duration for NASA Grant (NAG-1-861) is rep...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...
Theoretical and numerical studies of laminar jet diffusion flames have been conducted in the limit o...
A laminar flamelet model is applied for bluff-body stabilized flames to study the flow field, mixing...