Details
- R.S., BUNKER - General Electric Global Research Center, USA: Turbine engine film cooling design and applications
- R.S., BUNKER - General Electric Global Research Center, USA: Turbine engine film cooling constraints
- R.S., BUNKER - General Electric Global Research Center, USA: Blade tip film cooling
- R.S., BUNKER - General Electric Global Research Center, USA: Turbine unsteady effects on film cooling
- T. W., SIMON - University of Minnesota, USA: Fundamentals of coolant injection
- T. W., SIMON - University of Minnesota, USA: Discrete hole film cooling injection: mixing effects
- T. W., SIMON - University of Minnesota, USA: Effects of mainstream conditions
- D.G., BOGARD - University of Texas at Austin, USA: Fundamentals of film effectiveness performance
- D.G., BOGARD - University of Texas at Austin, USA: Geometric and flow influences on films effectiveness
- D.G., BOGARD - University of Texas at Austin, USA: Specific airfoil film cooling configurations
- S., BALDAUF 1 & A., SCHULZ 2 - 1WEBASTO AG & 2Universität Karlsruhe, Germany: Flat plate film heat transfer coefficient augmentation
- C., SAUMWEBER 1 & A., SCHULZ 2 - 1BEHR GmbH & Co. KG & 2Universität Karlsruhe, Germany: Airfoil film heat transfer and effects of approach conditions
- C., SAUMWEBER 1 & A., SCHULZ 2 - 1BEHR GmbH & Co. KG & 2Universität Karlsruhe, Germany: Effects of film hole shaping and freestream conditions on
heat transfer augmentation and discharge coefficients - S., ACHARYA – Louisiana State University, USA: Numerical modeling methods for film cooling
- S., ACHARYA – Louisiana State University, USA: Steady and unsteady rans film cooling predictions
- S., ACHARYA & M., TYAGI – Louisiana State University, USA: Direct numerical simulation (DNS) and large eddy simulation (LES) for film cooling
- A., BURDET - ETHZ - Swiss Federal Institute of Technology Zurich: Film cooling models: coupling experimental observations with computational methods
Additional Information
Manufacturer | von Karman Institute for Fluid Dynamics |
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