Film cooling is vital for the cooling of the blades and vanes in the high temperature environment of a jet engine high pressure turbine stage. Previous research into film cooling has typically concentrated on its time-mean performance. However, results from other studies upon more simplified geometries, suggest that coherent unsteadiness is likely to also be present in film cooling flows. The research presented in this thesis, therefore, aims to characterise what coherent unsteadiness, if any, is present within film cooling flows. Cylindrical and shaped cooling holes, located upon the pressure surface of a turbine blade within a large scale linear cascade, have been investigated. A blowing ratio range of 0.5 to 2.0 has been investigated, w...
One viable option to improve cooling methods used for gas turbine blades is to optimize the geometry...
Film cooling is crucial in the field of gas turbines to protect the blade surfaces from the hot comb...
Traditionally, the formation of the Counter-Rotating Vortex Pair (CRVP) has been attributed to three...
It is known that the mixing of a film cooling flow with the main turbine passage flow is an unsteady...
The benefits of different film cooling geometries are typically assessed in terms of their time aver...
The benefits of different film cooling geometries are typically assessed in terms of their time-aver...
The mechanisms of blade row interaction affecting rotor film cooling are identified to make recommen...
This paper collects the final results of a combined experimental and numerical investigation on pres...
Within the framework of scale resolving simulation techniques, this paper considers the application ...
This thesis examines the internal flow dynamics of a typical fan-shaped film cooling hole, as found ...
The film-cooling holes in turbine blades are fed from an internal cooling channel. This channel impo...
This paper presents flow visualisation experiments for a novel film-cooling hole, the converging s...
Advanced film-cooling systems are necessary to guarantee safe working conditions of high-pressure tu...
Unsteadiness in gas turbine film cooling jets may arise due to inherent unsteadiness of the flow thr...
Understanding the complex flow of jets issuing into a crossflow from an inclined hole that has a sho...
One viable option to improve cooling methods used for gas turbine blades is to optimize the geometry...
Film cooling is crucial in the field of gas turbines to protect the blade surfaces from the hot comb...
Traditionally, the formation of the Counter-Rotating Vortex Pair (CRVP) has been attributed to three...
It is known that the mixing of a film cooling flow with the main turbine passage flow is an unsteady...
The benefits of different film cooling geometries are typically assessed in terms of their time aver...
The benefits of different film cooling geometries are typically assessed in terms of their time-aver...
The mechanisms of blade row interaction affecting rotor film cooling are identified to make recommen...
This paper collects the final results of a combined experimental and numerical investigation on pres...
Within the framework of scale resolving simulation techniques, this paper considers the application ...
This thesis examines the internal flow dynamics of a typical fan-shaped film cooling hole, as found ...
The film-cooling holes in turbine blades are fed from an internal cooling channel. This channel impo...
This paper presents flow visualisation experiments for a novel film-cooling hole, the converging s...
Advanced film-cooling systems are necessary to guarantee safe working conditions of high-pressure tu...
Unsteadiness in gas turbine film cooling jets may arise due to inherent unsteadiness of the flow thr...
Understanding the complex flow of jets issuing into a crossflow from an inclined hole that has a sho...
One viable option to improve cooling methods used for gas turbine blades is to optimize the geometry...
Film cooling is crucial in the field of gas turbines to protect the blade surfaces from the hot comb...
Traditionally, the formation of the Counter-Rotating Vortex Pair (CRVP) has been attributed to three...