Film-cooling is commonly used in modern gas turbines to increase inlet temperatures without compromising the mechanical strength of the hot components. The main objective of the study reported here is the critical evaluation of the capability of CFD, to predict film-cooling on three-dimensional engine realistic turbine aerofoil geometries. To achieve this aim two different film-cooling systems for NGV aerofoils are predicted and compared against experiments. The application concerns the following turbine vanes: the AGTB-B1 blade investigated by the "Institut fur Strahlantriebe of the Universitat der Bundeswehr Munchen (Germany)"; the MT1 HP NGV investigated by QinetiQ (ex DERA, UK). In the first test case the application mainly focuses on t...
This paper is part two of a two part paper which considers a shroud film-cooling system design. The ...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...
The development of a high pressure turbine requires the accurate prediction of flow within and aroun...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Detailed surface measurements of the thermal performance of a film cooling system have been performe...
A three-dimensional Navier-Stokes analysis tool has been developed in order to study the effect of f...
To support gas turbine operators, NLR is developing capabilities for life assessment of hot engine c...
The durability of gas turbine engines is strongly dependent on the component temperatures. For the c...
In gas turbines some parts are exposed to combustion gases with temperatures well above the melting ...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
The objective of my research is to create a system that will reduce the thermal damage that affects ...
ABSTRACT Many cooling methods have been developed for gas turbine rotational components. Film coolin...
A method frequently used for the cooling of highly loaded high-pressure turbine-blades is the so cal...
In gas turbine development, the direction has been higher turbine inlet temperatures to increase the...
This paper is part two of a two part paper which considers a shroud film-cooling system design. The ...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...
The development of a high pressure turbine requires the accurate prediction of flow within and aroun...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Detailed surface measurements of the thermal performance of a film cooling system have been performe...
A three-dimensional Navier-Stokes analysis tool has been developed in order to study the effect of f...
To support gas turbine operators, NLR is developing capabilities for life assessment of hot engine c...
The durability of gas turbine engines is strongly dependent on the component temperatures. For the c...
In gas turbines some parts are exposed to combustion gases with temperatures well above the melting ...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
The objective of my research is to create a system that will reduce the thermal damage that affects ...
ABSTRACT Many cooling methods have been developed for gas turbine rotational components. Film coolin...
A method frequently used for the cooling of highly loaded high-pressure turbine-blades is the so cal...
In gas turbine development, the direction has been higher turbine inlet temperatures to increase the...
This paper is part two of a two part paper which considers a shroud film-cooling system design. The ...
Gas turbines operate at turbine inlet temperatures (T41) varying between 1200°C to 1600°C. Because h...
The development of a high pressure turbine requires the accurate prediction of flow within and aroun...