Add to ORKGThe standard formulation of the weighted-sum-of-grey-gases (WSGG) model uses parameters that are fitted to a range of temperatures but only for specific ratios of H2O to CO2. As such, the model is limited to specific fuels with the proper composition of hydrogen and carbon unless several setups of parameters are used. Here, the WSGG model is modified to account for various ratios of H2O to CO2. To test the model, predictions of the radiative source termand wall fluxes in a gaseous domain between two infinite plates are compared with predictions by a statistical narrow-band model. Included in the comparison are also two grey approximations, which is a common approach to account for gaseous radiation in comprehensive combustion models. Result...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
The effect of total pressure of gas mixture is included in the development of new coefficients for t...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
The standard formulation of the weighted-sum-of-grey-gases (WSGG) model uses parameters that are fit...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
Models of gas radiation properties have been evaluated for conditions relevant to oxy-fired boilers,...
Models of gas radiation properties have been evaluated for conditions relevant to oxy-fired boilers,...
An alternative weighted-sum-of-gray-gases (WSGG) model is proposed with a single set of constant pre...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
The effect of total pressure of gas mixture is included in the development of new coefficients for t...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...
The standard formulation of the weighted-sum-of-grey-gases (WSGG) model uses parameters that are fit...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
This work focuses on models suitable for taking into account the spectral properties of combustion g...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
All published weighted sum of gray gases models (WSGGM) were either developed for a limited number o...
Models of gas radiation properties have been evaluated for conditions relevant to oxy-fired boilers,...
Models of gas radiation properties have been evaluated for conditions relevant to oxy-fired boilers,...
An alternative weighted-sum-of-gray-gases (WSGG) model is proposed with a single set of constant pre...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
Radiative heat transfer is a key parameter for the design of a combustion chamber. The directional n...
Radiation is the principal mode of heat transfer in utility boiler furnaces. Models for radiative pr...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
Accurate combustion models are necessary to predict, among other effects, the production of pollutan...
The effect of total pressure of gas mixture is included in the development of new coefficients for t...
Radiation heat transfer plays a significant role in buoyancy driven flows for large scale facilities...