Add to ORKGAccurate predictions of turbine heat transfer rates are needed to reduce the overall costs and risks of developing an efficient cooling system and to improve predictions of turbine life. 3D Navier Stokes codes are commonly used to predict the aerodynamic flowfield, but their use for heat transfer calculations is not so well established. This paper describes heat transfer predictions for the endwalls of two high pressure nozzle guide vanes using a typical Navier Stokes code and Baldwin Lomax turbulence model. The results are compared with experimental data and other published calculations and can be explained in terms of the endwall secondary flows
In this paper, we propose a design philosophy for cooling high-pressure nozzle guide vane endwalls, ...
Gas turbine engines have a high power-to-weight ratio, making them ideal for generation of aircraft ...
The taxonomy of flow phenomena affecting turbine blade heat transfer has been widely researched and ...
Predictions of turbine vane and endwall heat transfer and pressure distributions are compared with e...
Accurate predictability of high-pressure turbine nozzle guide vane aero-thermal performance is highl...
The primary requirements for a modern industrial gas turbine consist of a continuous trend of an inc...
University of Minnesota M.S.M.E. thesis. December 2016. Major: Mechanical Engineering. Advisor: Terr...
The comparative analysis of near-wall treatment methods that affect the prediction of heat transfer ...
Pronounced nonuniformities in combustor exit flow temperature (hot-streaks), which arise because of ...
Heat transfer study on gas turbine blades is very important due to the resultant increase in cycle t...
The effect of secondary flows on mass transfer from a simulated gas turbine blade and hubwall is inv...
The high turbine inlet temperature of modern gas turbines poses a challenge to the material used in ...
The continuous demand from the airlines for reduced jet engine fuel consumption results in increasi...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
The effect of secondary flows on mass transfer from a simulated gas turbine blade and hubwall is inv...
In this paper, we propose a design philosophy for cooling high-pressure nozzle guide vane endwalls, ...
Gas turbine engines have a high power-to-weight ratio, making them ideal for generation of aircraft ...
The taxonomy of flow phenomena affecting turbine blade heat transfer has been widely researched and ...
Predictions of turbine vane and endwall heat transfer and pressure distributions are compared with e...
Accurate predictability of high-pressure turbine nozzle guide vane aero-thermal performance is highl...
The primary requirements for a modern industrial gas turbine consist of a continuous trend of an inc...
University of Minnesota M.S.M.E. thesis. December 2016. Major: Mechanical Engineering. Advisor: Terr...
The comparative analysis of near-wall treatment methods that affect the prediction of heat transfer ...
Pronounced nonuniformities in combustor exit flow temperature (hot-streaks), which arise because of ...
Heat transfer study on gas turbine blades is very important due to the resultant increase in cycle t...
The effect of secondary flows on mass transfer from a simulated gas turbine blade and hubwall is inv...
The high turbine inlet temperature of modern gas turbines poses a challenge to the material used in ...
The continuous demand from the airlines for reduced jet engine fuel consumption results in increasi...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
The effect of secondary flows on mass transfer from a simulated gas turbine blade and hubwall is inv...
In this paper, we propose a design philosophy for cooling high-pressure nozzle guide vane endwalls, ...
Gas turbine engines have a high power-to-weight ratio, making them ideal for generation of aircraft ...
The taxonomy of flow phenomena affecting turbine blade heat transfer has been widely researched and ...