A hybrid solution approach is proposed to solve the radiation transfer equation (RTE) in combusting environment using the weighted sum of gray gases model for modeling the absorption coefficient. The hybrid approach uses a selective combination of the finite-volume method (FVM) and P1 approximation to solve the RTE for different gray gases. A comprehensive study with a wide range of test cases with homogenous and nonhomogenous media is carried out to study the accuracy, speed, and convergence rate of the hybrid solution approach. The differences between hybrid and FVM results are described, and the sources of errors are discusse
The spectral modeling of the thermal radiation in participating media is a research area that has re...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
A hybrid solution approach is proposed to solve the radiation transfer equation (RTE) in combusting ...
A new model and code for radiative heat transfer based on the numerical solution of the radiative tr...
The coupling between non-gray radiation heat transfer and convection–conduction heat transfer is stu...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
International audienceThe radiative transfer equation (RTE) is solved by the Finite Volume Method (F...
Different approaches to employing weighted sum of grey gases data in line of sight solutions to the ...
AbstractGaseous combustion product, a mixture of radiating gas CO2, H2O and nonradiating gas N2, O2,...
In this study, a radiation code based on the method of lines solution of the discrete ordinates meth...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
A radiation code based on the method of lines (MOL) solution of the discrete ordinates method (DOM) ...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
In this study, a novel total spectrum-based non-gray model is proposed by modifying the narrow band-...
The spectral modeling of the thermal radiation in participating media is a research area that has re...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
A hybrid solution approach is proposed to solve the radiation transfer equation (RTE) in combusting ...
A new model and code for radiative heat transfer based on the numerical solution of the radiative tr...
The coupling between non-gray radiation heat transfer and convection–conduction heat transfer is stu...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
International audienceThe radiative transfer equation (RTE) is solved by the Finite Volume Method (F...
Different approaches to employing weighted sum of grey gases data in line of sight solutions to the ...
AbstractGaseous combustion product, a mixture of radiating gas CO2, H2O and nonradiating gas N2, O2,...
In this study, a radiation code based on the method of lines solution of the discrete ordinates meth...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
A radiation code based on the method of lines (MOL) solution of the discrete ordinates method (DOM) ...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
In this study, a novel total spectrum-based non-gray model is proposed by modifying the narrow band-...
The spectral modeling of the thermal radiation in participating media is a research area that has re...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...