Different approaches to employing weighted sum of grey gases data in line of sight solutions to the radiative transfer equation (RTE) are compared for mixtures of combustion gases and soot. Responses to variations in soot loading are analysed across configurations comprising uniform and non-uniform properties and compositions. Relative to a differential banded transmissivity solution, a weighted sum of grey gases (WSGG) solution, which solves the RTE for each grey gas component, yields greater accuracy than a total property (TP) solution. The latter evaluates radiative properties on a cell-by-cell basis for application ina a single equation. However, accuracy of the TP solution is shown to improve with increasing soot loading
The validity of approximations in methods to be used in radiative heat flux calculations in flames a...
In the design of boiler furnaces and gas turbine combustors it is desirable to enable prediction of ...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
International audienceThe radiative transfer equation (RTE) is solved by the Finite Volume Method (F...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
The standard formulation of the weighted-sum-of-grey-gases (WSGG) model uses parameters that are fit...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
The influence of the number of gray gases in the weighted sum in the gray gases model on the calcula...
A hybrid solution approach is proposed to solve the radiation transfer equation (RTE) in combusting ...
Funding Information: The authors greatly acknowledge the support of the Academy of Finland under gra...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
The validity of approximations in methods to be used in radiative heat flux calculations in flames a...
In the design of boiler furnaces and gas turbine combustors it is desirable to enable prediction of ...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
International audienceThe radiative transfer equation (RTE) is solved by the Finite Volume Method (F...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
The standard formulation of the weighted-sum-of-grey-gases (WSGG) model uses parameters that are fit...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
A three-dimensional radiation code based on method of lines (MOL) solution of discrete ordinates met...
The influence of the number of gray gases in the weighted sum in the gray gases model on the calcula...
A hybrid solution approach is proposed to solve the radiation transfer equation (RTE) in combusting ...
Funding Information: The authors greatly acknowledge the support of the Academy of Finland under gra...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
The validity of approximations in methods to be used in radiative heat flux calculations in flames a...
In the design of boiler furnaces and gas turbine combustors it is desirable to enable prediction of ...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...