Three-dimensional contouring of the compressor and turbine endwalls in a gas turbine engine has been shown to be an effective method of reducing aerodynamic losses by mitigating the strength of the complex vortical structures generated at the endwall. Reductions in endwall heat transfer in the turbine have been also previously measured and reported in the literature. In this study, computational fluid dynamics simulations of a turbine blade with and without non-axisymmetric endwall contouring were compared to experimental measurements of the exit flowfield, endwall heat transfer and endwall film-cooling. Secondary kinetic energy at the cascade exit was closely predicted with a simulation using the SST k-ω turbulence model. Endwall heat tran...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Designing turbine components for maximum aerodynamic performance with adequate cooling is a critical...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Complex vortical secondary flows that are present near the endwall of an axial gas turbine blade are...
The film cooling and heat transfer on the endwall especially in the junction region of a vane/blade ...
University of Minnesota M.S.M.E. thesis. December 2016. Major: Mechanical Engineering. Advisor: Terr...
Turbine blade components in an engine are typically designed with gaps between parts due to manufact...
As vane inlet temperatures and turbine loadings are increasing, the aerodynamic and thermal manageme...
We investigate the numerical prediction of film cooling effectiveness of a two-dimensional gas turbi...
In gas turbine development, the direction has been higher turbine inlet temperatures to increase the...
Ever-increasing thermal loads on gas turbine components require improved cooling schemes to extend c...
This paper documents a computational investigation of the film-cooling effectiveness of a 3-D gas tu...
This paper documents a computational investigation of the film cooling effectiveness of a 3-D gas tu...
Gas turbine blade trailing edge is easy to burn out under the exposure of high-temperature gas du...
This paper documents a computational investigation of the film cooling effectiveness of a 3-D gas tu...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Designing turbine components for maximum aerodynamic performance with adequate cooling is a critical...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Complex vortical secondary flows that are present near the endwall of an axial gas turbine blade are...
The film cooling and heat transfer on the endwall especially in the junction region of a vane/blade ...
University of Minnesota M.S.M.E. thesis. December 2016. Major: Mechanical Engineering. Advisor: Terr...
Turbine blade components in an engine are typically designed with gaps between parts due to manufact...
As vane inlet temperatures and turbine loadings are increasing, the aerodynamic and thermal manageme...
We investigate the numerical prediction of film cooling effectiveness of a two-dimensional gas turbi...
In gas turbine development, the direction has been higher turbine inlet temperatures to increase the...
Ever-increasing thermal loads on gas turbine components require improved cooling schemes to extend c...
This paper documents a computational investigation of the film-cooling effectiveness of a 3-D gas tu...
This paper documents a computational investigation of the film cooling effectiveness of a 3-D gas tu...
Gas turbine blade trailing edge is easy to burn out under the exposure of high-temperature gas du...
This paper documents a computational investigation of the film cooling effectiveness of a 3-D gas tu...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...
Designing turbine components for maximum aerodynamic performance with adequate cooling is a critical...
In order to increase thermal efficiency of a gas turbine, higher turbine inlet temperature (TIT) is ...