Using a range of high fidelity large eddy simulations, the contrasting flow physics on the suction surface, preßure surface and endwalls of a low preßure turbine blade (T106A) was studied. The current paper attempts to provide an improved understanding of the flow physics over these three zones under the influence of different inflow boundary conditions. These include: (a) the effect of wakes at low and high turbulence intensity on the flow at mid-span and (b) the impact of the state of the incoming boundary layer on endwall flow features. On the suction surface, the preßure fluctuations on the aft portion significantly reduced at high Free-Stream Turbulence (FST). The instantaneous flow features revealed that this reduction at high FST is ...
The aerodynamic efficiency of turbomachinery blades is profoundly affected by the occurrence of lami...
Large eddy simulations of a linear low-pressure turbine cascade with the T106A profile and different...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
The transition of a separated shear layer over a flat plate, in the presence of periodic wakes and e...
In turbomachines, secondary flows (or endwall flows) typically originate at the junction between end...
The suction side boundary layer evolution of a high-lift low-pressure turbine cascade has been exper...
Using a series of direct numerical simulations, the individual and cumulative effects of various dis...
Particle Image Velocimetry (PIV) has been adopted to analyze the instantaneous flow field developing...
The secondary flow, also termed endwall flow, usually introduces additional losses into the system t...
In the present thesis, receptivity, stability and laminar-turbulent transition of different boundary...
In the present work, the laminar-turbulent transition of the flow evolving around a low-pressure tur...
This paper deals with experimental investigation on the interaction between inlet freestream turbule...
The suction side boundary-layer evolution in two ultra-high-lift low-pressure turbine blade cascades...
The secondary flow increases the loss and changes the flow incidence in the downstream blade row. To...
The aerodynamic efficiency of turbomachinery blades is profoundly affected by the occurrence of lami...
Large eddy simulations of a linear low-pressure turbine cascade with the T106A profile and different...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...
Using a range of high-fidelity large eddy simulations (LES), the contrasting flow physics on the suc...
The transition of a separated shear layer over a flat plate, in the presence of periodic wakes and e...
In turbomachines, secondary flows (or endwall flows) typically originate at the junction between end...
The suction side boundary layer evolution of a high-lift low-pressure turbine cascade has been exper...
Using a series of direct numerical simulations, the individual and cumulative effects of various dis...
Particle Image Velocimetry (PIV) has been adopted to analyze the instantaneous flow field developing...
The secondary flow, also termed endwall flow, usually introduces additional losses into the system t...
In the present thesis, receptivity, stability and laminar-turbulent transition of different boundary...
In the present work, the laminar-turbulent transition of the flow evolving around a low-pressure tur...
This paper deals with experimental investigation on the interaction between inlet freestream turbule...
The suction side boundary-layer evolution in two ultra-high-lift low-pressure turbine blade cascades...
The secondary flow increases the loss and changes the flow incidence in the downstream blade row. To...
The aerodynamic efficiency of turbomachinery blades is profoundly affected by the occurrence of lami...
Large eddy simulations of a linear low-pressure turbine cascade with the T106A profile and different...
In low-pressure turbines (LPTs), around 60–70% of losses are generated away from end-walls, while th...