Flutter stability is a dominant design constraint of modern gas and steam turbines. To further increase the feasible design space, flutter-tolerant designs are currently explored, which may undergo Limit Cycle Oscillations (LCOs) of acceptable, yet not vanishing, level. Bounded self-excited oscillations are a priori a nonlinear phenomenon, and can thus only be explained by nonlinear interactions such as dry stick–slip friction in mechanical joints. The currently available simulation methods for blade flutter account for nonlinear interactions, at most, in only one domain, the structure or the fluid, and assume the behavior in the other domain as linear. In this work, we develop a fully-coupled nonlinear frequency domain method which is capa...
Aeroelastic flutter is a phenomenon when blades experience an aeroelastic self-excitation from the s...
The present research project is focused on development of fast and efficient numerical method bas...
Udgivelsesdato: JAN 10Wind turbine blades are increasing in magnitude without a proportional increas...
To save resources and reduce emissions, it is crucial to reduce weight of aircraft engines and furth...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
Prediction of flutter in shrouded turbomachinery cascades is difficult due to i) coupling of aerodyn...
To guarantee a safe operation of turbomachinery components engineers need to consider the aeroe- la...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
This work has been supported by the grant project of the Czech Science Foundation No 16-04546S Aero-...
There are two major causes of vibrations in gas-turbine structures: (i) excitation by time-varied ex...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
<p>This research presents the detailed investigation of coupled-mode flutter and non-synchronous vib...
The aim of this study was to assess the capabilities of different simulation approaches to predict t...
This paper presents direct numerical simulations (DNS) on unsteady turbulent flow in a vibrating low...
Aeroelastic flutter is a phenomenon when blades experience an aeroelastic self-excitation from the s...
The present research project is focused on development of fast and efficient numerical method bas...
Udgivelsesdato: JAN 10Wind turbine blades are increasing in magnitude without a proportional increas...
To save resources and reduce emissions, it is crucial to reduce weight of aircraft engines and furth...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
Prediction of flutter in shrouded turbomachinery cascades is difficult due to i) coupling of aerodyn...
To guarantee a safe operation of turbomachinery components engineers need to consider the aeroe- la...
A feature of a modern aeronautical Low-Pressure Turbine (LPT) is the high blade loadings with comple...
This work has been supported by the grant project of the Czech Science Foundation No 16-04546S Aero-...
There are two major causes of vibrations in gas-turbine structures: (i) excitation by time-varied ex...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
<p>This research presents the detailed investigation of coupled-mode flutter and non-synchronous vib...
The aim of this study was to assess the capabilities of different simulation approaches to predict t...
This paper presents direct numerical simulations (DNS) on unsteady turbulent flow in a vibrating low...
Aeroelastic flutter is a phenomenon when blades experience an aeroelastic self-excitation from the s...
The present research project is focused on development of fast and efficient numerical method bas...
Udgivelsesdato: JAN 10Wind turbine blades are increasing in magnitude without a proportional increas...