In low-pressure steam turbines, aerodynamic and structural design of the last stage blades is critical in determining the power plant efficiency. The development of longer last stage blades which are recently over 1 meter in length is an important task for steam turbine manufactures. The design process involves a flutter analysis of last stage blade tip sections where increased unsteady aerodynamic forces and moments might endanger the blade aerodynamic stability. However, numerical design tools must be validated using measurements in test facilities under various operating conditions. In this work, ANSYS CFX is used for flutter prediction of turbine blade tip sections oscillating in a travelling wave mode. Simulations are compared to exper...
During the commissioning of a low pressure steam turbine the last stage blades experienced severe vi...
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...
In low-pressure steam turbines, aerodynamic and structural design of the last stage blades is critic...
Last stage blades are a key element of steam turbines and in many ways determine the turbine configu...
Last stage blades are a key element of steam turbines and in many ways determine the turbine configu...
Recent design trends in steam turbines strive for high aerodynamic loading and high aspect ratio to ...
In this paper, experimental testing of flutter and numerical simulations using a commercial code ANS...
In this paper, the tip clearance effects on the aeroelastic stability of a last-stage steam turbine ...
In order to eliminate occurrences of flutter of low pressure turbine blades it is necessary to under...
The present research project is focused on development of fast and efficient numerical method bas...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
The aim of this study was to assess the capabilities of different simulation approaches to predict t...
An open three-dimensional (3D) flutter test case for steam turbines is presented. Unlike previous re...
In turbomachinery applications as propulsion and power generation, there is a continuous endeavour t...
During the commissioning of a low pressure steam turbine the last stage blades experienced severe vi...
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...
In low-pressure steam turbines, aerodynamic and structural design of the last stage blades is critic...
Last stage blades are a key element of steam turbines and in many ways determine the turbine configu...
Last stage blades are a key element of steam turbines and in many ways determine the turbine configu...
Recent design trends in steam turbines strive for high aerodynamic loading and high aspect ratio to ...
In this paper, experimental testing of flutter and numerical simulations using a commercial code ANS...
In this paper, the tip clearance effects on the aeroelastic stability of a last-stage steam turbine ...
In order to eliminate occurrences of flutter of low pressure turbine blades it is necessary to under...
The present research project is focused on development of fast and efficient numerical method bas...
The endeavour to increase the power output of steam turbines results in the design of low-pressure s...
The aim of this study was to assess the capabilities of different simulation approaches to predict t...
An open three-dimensional (3D) flutter test case for steam turbines is presented. Unlike previous re...
In turbomachinery applications as propulsion and power generation, there is a continuous endeavour t...
During the commissioning of a low pressure steam turbine the last stage blades experienced severe vi...
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...