In this final paper of a three-part series, we apply the numerical test rig based on a high-order Discontinuous Galerkin scheme to the MTU T161 low pressure turbine with diverging end walls at off-design Reynolds number of 90,000, Mach number of 0.6 and inflow angle of 41°. The inflow end wall boundary layers are prescribed in accordance with the experiment. Validation of the setup is shown against recent numerical references and the corresponding experimental data. Additionally, we propose and conduct a purely numerical experiment with upstream bar wake generators at a Strouhal number of 1.25, which is well above what was possible in the experiment. We discuss the flow physics at midspan and in the end wall region and highlight the influen...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
peer reviewedThis paper concerns implicit large eddy simulation (ILES) of turbulent flows of industr...
peer reviewedHigh pressure turbine (HPT) blades are cooled partly by guiding air from the compressor...
The following thesis presents a large-eddy simulation approach for predicting the flow inside a low-...
We present results of implicit large eddy simulation (LES) and different Reynolds-averaged Navier-St...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
The secondary flow, also termed endwall flow, usually introduces additional losses into the system t...
In turbomachines, secondary flows (or endwall flows) typically originate at the junction between end...
To better understand the wake effects at low Reynolds numbers, large-eddy simulations of a 50% react...
In this first paper of a three-part series, we present the extension and validation of the high-orde...
In low-pressure turbines (LPT) at design point, around 60–70% of losses are generated in the blade b...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
The aim of the present work is to improve the understanding of low Reynolds flow physics by performi...
In the second paper of this three-part series, we focus on the simulation of transonic test cases fo...
peer reviewedAn implicit time integration, high-order discontinuous Galerkin method is assessed on t...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
peer reviewedThis paper concerns implicit large eddy simulation (ILES) of turbulent flows of industr...
peer reviewedHigh pressure turbine (HPT) blades are cooled partly by guiding air from the compressor...
The following thesis presents a large-eddy simulation approach for predicting the flow inside a low-...
We present results of implicit large eddy simulation (LES) and different Reynolds-averaged Navier-St...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
The secondary flow, also termed endwall flow, usually introduces additional losses into the system t...
In turbomachines, secondary flows (or endwall flows) typically originate at the junction between end...
To better understand the wake effects at low Reynolds numbers, large-eddy simulations of a 50% react...
In this first paper of a three-part series, we present the extension and validation of the high-orde...
In low-pressure turbines (LPT) at design point, around 60–70% of losses are generated in the blade b...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
The aim of the present work is to improve the understanding of low Reynolds flow physics by performi...
In the second paper of this three-part series, we focus on the simulation of transonic test cases fo...
peer reviewedAn implicit time integration, high-order discontinuous Galerkin method is assessed on t...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
peer reviewedThis paper concerns implicit large eddy simulation (ILES) of turbulent flows of industr...
peer reviewedHigh pressure turbine (HPT) blades are cooled partly by guiding air from the compressor...