An integrated methodology for the simulation of practical combustion systems and NO, prediction was developed. It is based on 3D CFD simulation coupled to a postprocessor which yields reactor networks, extracted from 3D fields, as 'equivalent' simplified flow models for which it is possible to use a detailed reaction kinetics. A review of some relevant application is presented to illustrate how this methodology can help in design and optimisation of industrial combustion systems towards a comprehensive improvement of the environmental performances. (C) 2002 Elsevier Science Ltd. All rights reserved
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...
Predicting the formation of pollutants from combustion devices requires the combination of accurate ...
This paper describes a method to produce chemical reactor networks (CRNs) consisting of large number...
Chemical engineering models significantly reduce the amount of computational time for detailed chemi...
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...
The excessive computational cost of computational fluid dynamics (CFD) simulations of complex reacto...
The design of cleaner and more sustainable combustion technologies represents nowadays a key task. R...
Every aspect of the modern day life relies on combustion, be it in motor vehicles, industrial equipm...
Gas turbines are the power house of most modern day aircrafts. Combustion of fossil fuels provides t...
A 1D flow and chemical reactor network model was developed to predict the performance of a combustor...
This paper describes the activities carried out for the development and the use of CRFD codes and re...
Gas turbine pollutant emissions (especially NOx and CO) are limited to 25 ppmvd by the European legi...
Gas turbine combustor performance was explored by utilizing a 1-D flow network model. To obtain the ...
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...
Predicting the formation of pollutants from combustion devices requires the combination of accurate ...
This paper describes a method to produce chemical reactor networks (CRNs) consisting of large number...
Chemical engineering models significantly reduce the amount of computational time for detailed chemi...
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...
The excessive computational cost of computational fluid dynamics (CFD) simulations of complex reacto...
The design of cleaner and more sustainable combustion technologies represents nowadays a key task. R...
Every aspect of the modern day life relies on combustion, be it in motor vehicles, industrial equipm...
Gas turbines are the power house of most modern day aircrafts. Combustion of fossil fuels provides t...
A 1D flow and chemical reactor network model was developed to predict the performance of a combustor...
This paper describes the activities carried out for the development and the use of CRFD codes and re...
Gas turbine pollutant emissions (especially NOx and CO) are limited to 25 ppmvd by the European legi...
Gas turbine combustor performance was explored by utilizing a 1-D flow network model. To obtain the ...
The Flameless Combustion (FC) regime has been pointed out as a promising combustion technique to low...
Predicting the formation of pollutants from combustion devices requires the combination of accurate ...
This paper describes a method to produce chemical reactor networks (CRNs) consisting of large number...