Add to ORKGA numerical study for confined, axisymmetrical, turbulent diffusion flames is presented. Local mean gas properties are predicted by solving the appropriate conservation equations in the finite difference form with the corresponding boundary conditions. The k-epsilon two-equation turbulence model is employed to describe the turbulent nature of the flow. A two-step kinetic model is assumed to govern the reaction mechanism. The finite reaction rate is the smaller of an Arrhenius type of reaction rate and a modified version of eddy-breakup model. Reasonable agreement is observed between calculations and measurements, but to obtain better agreement, more work is needed on improvements of the above mathematical models. However, the present numeri...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
In this study the combustion characteristics of the turbulent combustion of a gaseous fuel (methane)...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...
ABSTRACT INTRODUCTION The three-dimensional, viscous, turbulent, reacting and non-reacting flow char...
Computationally tractable models for turbulent combusting flow in complex geometries are presented a...
This paper describes non-reacting flow analysis of a gas turbine combustion system. The method is ba...
In this study the combustion characteristics of the turbulent combustion of a gaseous fuel (methane)...
Breithaupt, Peter P. The present study is concerned with mathematical modelling of natural gas flame...
International audienceABSTRACT This article aims to study numerically three-dimensional (3D) reactiv...
In this article, a numerical method, algorithm, and numerical solutions are proposed for solving the...
Gas turbines are expected to play a key role in the energy production scenario in the future, and th...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
This article presents the development of a numerical al-gorithm for the computation of flow and comb...
The flowfields of gas turbine combustion chambers were investigated. Six flowfield configurations wi...
Increasing demands on environmentally friendly energy conversion indicate that pollutants need to be...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
In this study the combustion characteristics of the turbulent combustion of a gaseous fuel (methane)...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...
ABSTRACT INTRODUCTION The three-dimensional, viscous, turbulent, reacting and non-reacting flow char...
Computationally tractable models for turbulent combusting flow in complex geometries are presented a...
This paper describes non-reacting flow analysis of a gas turbine combustion system. The method is ba...
In this study the combustion characteristics of the turbulent combustion of a gaseous fuel (methane)...
Breithaupt, Peter P. The present study is concerned with mathematical modelling of natural gas flame...
International audienceABSTRACT This article aims to study numerically three-dimensional (3D) reactiv...
In this article, a numerical method, algorithm, and numerical solutions are proposed for solving the...
Gas turbines are expected to play a key role in the energy production scenario in the future, and th...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
This article presents the development of a numerical al-gorithm for the computation of flow and comb...
The flowfields of gas turbine combustion chambers were investigated. Six flowfield configurations wi...
Increasing demands on environmentally friendly energy conversion indicate that pollutants need to be...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
In this study the combustion characteristics of the turbulent combustion of a gaseous fuel (methane)...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...