This paper presents numerical results of the fluid-structure investigation in a generic gas turbine combustion chamber. Results are obtained with the use of CFX-10 and ANSYS-10 commercial codes. The influence of the pressure changes inside the combustion chamber on the vibration pattern of the liner walls and vice versa is investigated
This study presents the numerical fluid-structure interaction (FSI) modelling of a vibrating turbine...
In order to fulfil requirements regarding emission of harmful gases to atmosphere, the gas turbine t...
To decrease NOx emissions from a combustion system lean premixed combustion in combination with an a...
Summary. This paper presents numerical results of the fluid-structure investigation in a generic gas...
Prediction of mutual interaction between flow, combustion, acoustic, and vibration phenomena occurri...
Abstract. Numerical investigations of fluid structure interaction between unsteady flow and vibratin...
Numerical investigations of fluid structure interaction between unsteady flow and vibrating liner in...
Gas turbine combustors have at industrial scale a thermal power released by combustion of 1 to 400 M...
Gas turbine combustors have at industrial scale a thermal power released by combustion of 1 to 400 M...
The turbulent flame in the lean combustion regime in a gas turbine combustor generates significant t...
In this paper, lean premixed combustion on natural gas is studied in experimental and numerical way....
The computation of fluid–structure interaction (FSI) problems requires solving simultaneously the co...
The lean premixed combustion suffers from a high sensitivity to thermo-acoustic instabilities which ...
The liner of a gas turbine combustor is a very flexible structure that is exposed to the pressure os...
Due to the high temperature of the flue gas flowing at high velocity and pressure, the wall cooling ...
This study presents the numerical fluid-structure interaction (FSI) modelling of a vibrating turbine...
In order to fulfil requirements regarding emission of harmful gases to atmosphere, the gas turbine t...
To decrease NOx emissions from a combustion system lean premixed combustion in combination with an a...
Summary. This paper presents numerical results of the fluid-structure investigation in a generic gas...
Prediction of mutual interaction between flow, combustion, acoustic, and vibration phenomena occurri...
Abstract. Numerical investigations of fluid structure interaction between unsteady flow and vibratin...
Numerical investigations of fluid structure interaction between unsteady flow and vibrating liner in...
Gas turbine combustors have at industrial scale a thermal power released by combustion of 1 to 400 M...
Gas turbine combustors have at industrial scale a thermal power released by combustion of 1 to 400 M...
The turbulent flame in the lean combustion regime in a gas turbine combustor generates significant t...
In this paper, lean premixed combustion on natural gas is studied in experimental and numerical way....
The computation of fluid–structure interaction (FSI) problems requires solving simultaneously the co...
The lean premixed combustion suffers from a high sensitivity to thermo-acoustic instabilities which ...
The liner of a gas turbine combustor is a very flexible structure that is exposed to the pressure os...
Due to the high temperature of the flue gas flowing at high velocity and pressure, the wall cooling ...
This study presents the numerical fluid-structure interaction (FSI) modelling of a vibrating turbine...
In order to fulfil requirements regarding emission of harmful gases to atmosphere, the gas turbine t...
To decrease NOx emissions from a combustion system lean premixed combustion in combination with an a...