The aerodynamic characteristics of advanced low-pressure turbines (LPTs) could be affected by the interaction between the transitional and turbulent flow and the dynamic behaviour of the blades. Consequently, analysing the details of the interactions between the transient flow, blade vibrations and the flutter occurrence over the blades of LPTs are essential in order to enhance the aerodynamic efficiency of the modern LPTs. The distinctive feature of the present analysis is performing high-fidelity simulations based on a DNS approach employing a 3D blade model to investigate the flutter instabilities in a T106A turbine at various inter blade phase angles (IBPAs) at different Reynolds numbers. The impacts of the flutter on the transient flow...
The present research project is focused on development of fast and efficient numerical method bas...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
The aerodynamic characteristics of advanced low-pressure turbines (LPTs) could be affected by the in...
Modern aeronautical Low-Pressure Turbines (LPTs) are prone to aeroelastic instability problems such ...
This paper presents direct numerical simulations (DNS) on unsteady turbulent flow in a vibrating low...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
In the present work, direct numerical simulation is employed to investigate the unsteady flow charac...
This paper investigates the secondary vortex flows over an oscillating low-pressure turbine blade us...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
This thesis documents an experimental and computational study of the unsteady flow around oscillatin...
Recent design trends in steam turbines strive for high aerodynamic loading and high aspect ratio to ...
The present research project is focused on development of fast and efficient numerical method bas...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
The aerodynamic characteristics of advanced low-pressure turbines (LPTs) could be affected by the in...
Modern aeronautical Low-Pressure Turbines (LPTs) are prone to aeroelastic instability problems such ...
This paper presents direct numerical simulations (DNS) on unsteady turbulent flow in a vibrating low...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
In the present work, direct numerical simulation is employed to investigate the unsteady flow charac...
This paper investigates the secondary vortex flows over an oscillating low-pressure turbine blade us...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
This thesis documents an experimental and computational study of the unsteady flow around oscillatin...
Recent design trends in steam turbines strive for high aerodynamic loading and high aspect ratio to ...
The present research project is focused on development of fast and efficient numerical method bas...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...