This paper investigates the aerodynamic performance of a low pressure turbine, namely the T106C, by large eddy simulation (LES) and coarse grid direct numerical simulation (CDNS) at a Reynolds number of 100,000. The existing experimental data is used to validate the results. The effects of sub-grid scale (SGS) models, mesh densities, computational domains and boundary conditions on the result are studied. A separation zone appears downstream 60% S/S-0, which is difficult to be predicted precisely. Two SGS models, i.e. Smagorinsky and WALE model are implemented. WALE model produces a better result than Smagorinsky model when the mesh is coarse. For the fine mesh, the difference due to the SGS models becomes smaller. It is surprising to find ...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
Compressible turbulent flow over a modern gas turbine blade is modeled in this thesis using Large Ed...
This paper presents the Large Eddy Simulation (LES) of a Low-Pressure Turbine (LPT) Nozzle Guide Va...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
To date no generally accepted prediction method is available for a low pressure turbine designer. De...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
We present results of implicit large eddy simulation (LES) and different Reynolds-averaged Navier-St...
In low-pressure turbines (LPT) at design point, around 60–70% of losses are generated in the blade b...
The following thesis presents a large-eddy simulation approach for predicting the flow inside a low-...
For jets, large eddy resolving simulations are compared for a range of numerical schemes with no sub...
Modern low pressure turbines (LPT) feature high pressure ratios and moderate Mach and Reynolds numbe...
Flows throughout different zones of turbines have been investigated using large eddy simulation (LES...
A large eddy simulation (LES) has been performed of the flow through a turbine cascade, named T106C,...
The flow over the linear low-pressure turbine cascade MTU-T161 at Re = 90,000 is analyzed using Dela...
Modern low pressure turbines (LPT) feature high pressure ratios and moderate Mach and Reynolds numbe...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
Compressible turbulent flow over a modern gas turbine blade is modeled in this thesis using Large Ed...
This paper presents the Large Eddy Simulation (LES) of a Low-Pressure Turbine (LPT) Nozzle Guide Va...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
To date no generally accepted prediction method is available for a low pressure turbine designer. De...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
We present results of implicit large eddy simulation (LES) and different Reynolds-averaged Navier-St...
In low-pressure turbines (LPT) at design point, around 60–70% of losses are generated in the blade b...
The following thesis presents a large-eddy simulation approach for predicting the flow inside a low-...
For jets, large eddy resolving simulations are compared for a range of numerical schemes with no sub...
Modern low pressure turbines (LPT) feature high pressure ratios and moderate Mach and Reynolds numbe...
Flows throughout different zones of turbines have been investigated using large eddy simulation (LES...
A large eddy simulation (LES) has been performed of the flow through a turbine cascade, named T106C,...
The flow over the linear low-pressure turbine cascade MTU-T161 at Re = 90,000 is analyzed using Dela...
Modern low pressure turbines (LPT) feature high pressure ratios and moderate Mach and Reynolds numbe...
Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction s...
Compressible turbulent flow over a modern gas turbine blade is modeled in this thesis using Large Ed...
This paper presents the Large Eddy Simulation (LES) of a Low-Pressure Turbine (LPT) Nozzle Guide Va...