Deep knowledge of combustion phenomena is of great scientific and technological interest. In fact, better design of combustion equipments (furnaces, boilers, engines, etc) can contribute both in the energy efficiency and in the reduction of pollutant formation. One of the limitations to design combustion equipments, or even predict simple flames, is the resolution of the mathematical formulation. Analytical solutions are not feasible, and recently numerical techniques have received enormous interest. Even though the ever-increasing computational capacity, the numerical resolution requires large computational resources due to the inherent complexity of the phenomenon (viz. multidimensional flames, finite rate kinetics, radiation in particip...
This is the author accepted manuscript. The final version is available from Taylor & Francis via htt...
In the practical combustion systems, the partially premixed flame characteristic considerably influe...
The aim of our work is to contribute to the analysis of the structure of laminar premixed Methane-Ai...
Deep knowledge of combustion phenomena is of great scientific and technological interest. In fact, b...
The aim of this work is to analyze the application of flamelet models based on the mixture fraction ...
Flamelet models based on the mixture fraction variable using its dissipation rate for the mixing pro...
Deep knowledge of combustion phenomenon is of great scientific and technological interest due to its...
The thesis comprises of a thorough assessment of turbulent non-premixed combustion modelling techniq...
The scope of this investigation is to evaluate different radiation modeling approaches for both Lagr...
In order to reduce the computational cost of flame simulations, several methods have been developed ...
This thesis deals with numerical simulation of reactive flows. The numerical method is three dimensi...
The thesis topic is located in the domain of numerical simulation of laminar flames. The principal a...
The modelling of premixed turbulent combustion has been studied. Premixed turbulent combustion occur...
The numerical modeling of realistic burner systems puts a very high demand on computational recource...
This is the author accepted manuscript. The final version is available from Taylor & Francis via htt...
In the practical combustion systems, the partially premixed flame characteristic considerably influe...
The aim of our work is to contribute to the analysis of the structure of laminar premixed Methane-Ai...
Deep knowledge of combustion phenomena is of great scientific and technological interest. In fact, b...
The aim of this work is to analyze the application of flamelet models based on the mixture fraction ...
Flamelet models based on the mixture fraction variable using its dissipation rate for the mixing pro...
Deep knowledge of combustion phenomenon is of great scientific and technological interest due to its...
The thesis comprises of a thorough assessment of turbulent non-premixed combustion modelling techniq...
The scope of this investigation is to evaluate different radiation modeling approaches for both Lagr...
In order to reduce the computational cost of flame simulations, several methods have been developed ...
This thesis deals with numerical simulation of reactive flows. The numerical method is three dimensi...
The thesis topic is located in the domain of numerical simulation of laminar flames. The principal a...
The modelling of premixed turbulent combustion has been studied. Premixed turbulent combustion occur...
The numerical modeling of realistic burner systems puts a very high demand on computational recource...
This is the author accepted manuscript. The final version is available from Taylor & Francis via htt...
In the practical combustion systems, the partially premixed flame characteristic considerably influe...
The aim of our work is to contribute to the analysis of the structure of laminar premixed Methane-Ai...