Add to ORKGDetailed film cooling effectiveness distributions were measured on the stationary blade tip and on the leading edge region of a rotating blade using a Pressure Sensitive Paint technique. Air and nitrogen gas were used as the film cooling gases and the oxygen concentration distribution for each case was measured. The film cooling effectiveness information was obtained from the difference of the oxygen concentration between air and nitrogen gas cases by applying the mass transfer analogy. In the case of the stationary blade tip, plane tip and squealer tip blades were used while the film cooling holes were located (a) along the camber line on the tip or (b) along the span of the pressure side. The average blowing ratio of the cooling gas was c...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The present work has been an experimental investigation to evaluate the applicability of gas turbine...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...
Detailed film cooling effectiveness distributions were measured on the stationary blade tip and on t...
Through the advancement of gas turbine cooling technologies, gas turbine engines remain one of the m...
The hot gas temperature in gas turbine engines is far above the permissible metal temperatures. Adva...
High turbine inlet temperature becomes necessary for increasing thermal efficiency of modern gas tur...
ABSTRACT The effect of film cooling holes placed along the span of a fullycooled high pressure turbi...
ABSTRACT A computational analysis was carried out to comprehend the mechanism of rotation on the fil...
The leading edge region of gas turbine blades and vanes experiences high thermal and mechanical str...
The present paper describes the influence of the temperature dependent air properties on turbine bla...
The objective of my research is to create a system that will reduce the thermal damage that affects ...
The film-cooling performance in a low-speed rotor blade of a 1-1/2 turbine stage has been examined u...
Nowadays total inlet temperature of gas turbine is far above the permissible metal temperature; as a...
Experimental investigations were performed to measure the local heat transfer coefficient (hg ) dist...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The present work has been an experimental investigation to evaluate the applicability of gas turbine...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...
Detailed film cooling effectiveness distributions were measured on the stationary blade tip and on t...
Through the advancement of gas turbine cooling technologies, gas turbine engines remain one of the m...
The hot gas temperature in gas turbine engines is far above the permissible metal temperatures. Adva...
High turbine inlet temperature becomes necessary for increasing thermal efficiency of modern gas tur...
ABSTRACT The effect of film cooling holes placed along the span of a fullycooled high pressure turbi...
ABSTRACT A computational analysis was carried out to comprehend the mechanism of rotation on the fil...
The leading edge region of gas turbine blades and vanes experiences high thermal and mechanical str...
The present paper describes the influence of the temperature dependent air properties on turbine bla...
The objective of my research is to create a system that will reduce the thermal damage that affects ...
The film-cooling performance in a low-speed rotor blade of a 1-1/2 turbine stage has been examined u...
Nowadays total inlet temperature of gas turbine is far above the permissible metal temperature; as a...
Experimental investigations were performed to measure the local heat transfer coefficient (hg ) dist...
Film cooling effectiveness on a gas turbine blade tip on the near tip pressure side and on the squea...
The present work has been an experimental investigation to evaluate the applicability of gas turbine...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...