CP13. A truthful estimation of pollutants formation in turbulent combustion devices requires the combination of accurate CFD simulations and detailed kinetic mechanisms. In this work this is accomplished by adopting a kinetic post-processing technique, which consists in transforming a CFD simulation into a network of chemical reactors. The reliability and the accuracy of the proposed procedure is demonstrated through several examples, from lab-scale flames to more complex systems, like furnaces and combustors for aircrafts
The excessive computational cost of computational fluid dynamics (CFD) simulations of complex reacto...
The numerical prediction of formation of nitrogen oxides (NOx) in combustion devices (domestic and i...
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...
CP13. A truthful estimation of pollutants formation in turbulent combustion devices requires the com...
In this paper we describe and apply a parallel code, named KPPSMOKE, for the prediction of pollutant...
Chemical engineering models significantly reduce the amount of computational time for detailed chemi...
Predicting the formation of pollutants from combustion devices requires the combination of accurate ...
An integrated methodology for the simulation of practical combustion systems and NO, prediction was ...
This paper describes a method to produce chemical reactor networks (CRNs) consisting of large number...
The pollutants produced by the burning of fossil fuels have a severe impact on the environment and o...
Prediction of pollutant emissions is a key aspect of modern combustor design in energy conversion sy...
The design of cleaner and more sustainable combustion technologies represents nowadays a key task. R...
The excessive computational cost of computational fluid dynamics (CFD) simulations of complex reacto...
The numerical prediction of formation of nitrogen oxides (NOx) in combustion devices (domestic and i...
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...
CP13. A truthful estimation of pollutants formation in turbulent combustion devices requires the com...
In this paper we describe and apply a parallel code, named KPPSMOKE, for the prediction of pollutant...
Chemical engineering models significantly reduce the amount of computational time for detailed chemi...
Predicting the formation of pollutants from combustion devices requires the combination of accurate ...
An integrated methodology for the simulation of practical combustion systems and NO, prediction was ...
This paper describes a method to produce chemical reactor networks (CRNs) consisting of large number...
The pollutants produced by the burning of fossil fuels have a severe impact on the environment and o...
Prediction of pollutant emissions is a key aspect of modern combustor design in energy conversion sy...
The design of cleaner and more sustainable combustion technologies represents nowadays a key task. R...
The excessive computational cost of computational fluid dynamics (CFD) simulations of complex reacto...
The numerical prediction of formation of nitrogen oxides (NOx) in combustion devices (domestic and i...
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...