This thesis examines the cooling performance and the flow on a gas turbine blade. Numerical and experimental methods are described and implemented to assess the influence of film cooling effectiveness. A modem gas turbine blade geometry has been used. The blade is considered as a solid body with the blade cross section from hub to shroud varying with a degree of skewness. Computational Fluid Dynamics (CFD) is employed to assess blade film cooling effectiveness via simulation of the effect of varying blowing ratios (BR=1, 1.5 and 2), varying coolant fluid temperature (Tc=153 K and Tc=287.5 K), various angles of injection (35°,45° and 60°), increasing the number of cooling holes (32 and 42) and increasing the cooling holes diamete...
Advanced gas turbines are designed to operate at increasingly higher inlet temperatures to increase ...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The aim of this study is to investigate the effect of different kinds of cooling holes and staggered...
This thesis examines the cooling performance and the flow on a gas turbine blade. Numerical and expe...
Film cooling is one of the cooling techniques to cool the hot section components of a gas turbine en...
In gas turbines, the operating temperature of the primary fluid is very high. In order to lessen the...
Modern gas turbine engines require higher turbine-entry gas temperature to improve their thermal eff...
The hot gas temperature in gas turbine engines is far above the permissible metal temperatures. Adva...
Film cooling is a technique used to protect turbine blades or other surfaces from a high temperatur...
Gas turbines are a major contributor to world power generation with applications ranging from electr...
The performance of gas turbine engines can be improved by increasing the inlet gas temperature. Turb...
The service life of gas turbine engine turbine blades depends on the blade’s material, service tempe...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
AbstractFilm cooling of turbine blades is an effective way to cool the blade and ensure the long lif...
In this study, the film-cooling effectiveness in different regions of gas turbine blades was investi...
Advanced gas turbines are designed to operate at increasingly higher inlet temperatures to increase ...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The aim of this study is to investigate the effect of different kinds of cooling holes and staggered...
This thesis examines the cooling performance and the flow on a gas turbine blade. Numerical and expe...
Film cooling is one of the cooling techniques to cool the hot section components of a gas turbine en...
In gas turbines, the operating temperature of the primary fluid is very high. In order to lessen the...
Modern gas turbine engines require higher turbine-entry gas temperature to improve their thermal eff...
The hot gas temperature in gas turbine engines is far above the permissible metal temperatures. Adva...
Film cooling is a technique used to protect turbine blades or other surfaces from a high temperatur...
Gas turbines are a major contributor to world power generation with applications ranging from electr...
The performance of gas turbine engines can be improved by increasing the inlet gas temperature. Turb...
The service life of gas turbine engine turbine blades depends on the blade’s material, service tempe...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
AbstractFilm cooling of turbine blades is an effective way to cool the blade and ensure the long lif...
In this study, the film-cooling effectiveness in different regions of gas turbine blades was investi...
Advanced gas turbines are designed to operate at increasingly higher inlet temperatures to increase ...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The aim of this study is to investigate the effect of different kinds of cooling holes and staggered...