Most practical combustion systems involve complex geometry configurations and CFD techniques used for the calculation of flow and combustion in such geometries use body-fitted non-orthogonal mesh systems. This paper reviews some of the currently available radiative heat transfer calculation techniques suitable for such CFD applications. The Monte Carlo method, the discrete transfer method, the YIX method, the discrete ordinates method and the finite volume method are discussed and some notable applications related to combustion problems are reviewed. Comparative results using all the methods outlined are presented for bench mark problems and their applicability to complex geometry situations are discussed. Radiative heat flux predictions fo...
With an increasing trend towards cleaner combustion, accurate prediction of radiation of molecular g...
Combustion is the most common method of energy conversion constituting about 85 % of the primary ene...
Purpose - H2O, CO2 and CO are three main species in combustion systems which have high volume fracti...
International audienceModeling radiative heat transfer in combustion applications involving complex ...
We investigate the radiative heat transfer in a co-flowing turbulent nonpremixed propane-air flame i...
The in-cylinder combustion dynamics of spark-ignition (SI) engines involves a complex interaction of...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
A numerical procedure for solving the nongray radiative transfer equation (RTE) in two-dimensional c...
The exact solution to radiative heat transfer in combusting flows is not possible analytically due t...
We investigate the radiative heat transfer in a co-flowing turbulent non-premixed propane-air flame ...
Results of a numerical solution for radiative heat transfer in homogeneous and nonhomogeneous partic...
The current thesis is the first step in the development of and unstructured Discrete Ordinates Metho...
ABSTRACT. A Phton Monte Carlo method combined with a composition PDF method is employed to model rad...
This paper describes the application of the discrete transfer model of thermal radiation in the engi...
Abstract An adequate treatment of thermal radiation heat transfer is essential to a mathematical mod...
With an increasing trend towards cleaner combustion, accurate prediction of radiation of molecular g...
Combustion is the most common method of energy conversion constituting about 85 % of the primary ene...
Purpose - H2O, CO2 and CO are three main species in combustion systems which have high volume fracti...
International audienceModeling radiative heat transfer in combustion applications involving complex ...
We investigate the radiative heat transfer in a co-flowing turbulent nonpremixed propane-air flame i...
The in-cylinder combustion dynamics of spark-ignition (SI) engines involves a complex interaction of...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
A numerical procedure for solving the nongray radiative transfer equation (RTE) in two-dimensional c...
The exact solution to radiative heat transfer in combusting flows is not possible analytically due t...
We investigate the radiative heat transfer in a co-flowing turbulent non-premixed propane-air flame ...
Results of a numerical solution for radiative heat transfer in homogeneous and nonhomogeneous partic...
The current thesis is the first step in the development of and unstructured Discrete Ordinates Metho...
ABSTRACT. A Phton Monte Carlo method combined with a composition PDF method is employed to model rad...
This paper describes the application of the discrete transfer model of thermal radiation in the engi...
Abstract An adequate treatment of thermal radiation heat transfer is essential to a mathematical mod...
With an increasing trend towards cleaner combustion, accurate prediction of radiation of molecular g...
Combustion is the most common method of energy conversion constituting about 85 % of the primary ene...
Purpose - H2O, CO2 and CO are three main species in combustion systems which have high volume fracti...