(PDF) Effects of High Intensity, Large-Scale Freestream

Effects of High Intensity, Large-Scale Freestream Combustor Turbulence on Heat Transfer in Transonic Turbine Blades

doi 10.21236/ada419523

Full Text

Abstract

Available in full text

Date

December 17, 2003

Authors

Thomas E. Diller

Publisher

Defense Technical Information Center

Related search

High Intensity, Large Length-Scale Freestream Turbulence Generation in a Transonic Turbine Cascade

English

Effect of High Freestream Turbulence With Large Length Scale on Blade Heat/Mass Transfer

English

Showerhead Film Cooling Performance of a Turbine Vane at High Freestream Turbulence in a Transonic Cascade

Journal of Turbomachinery

Mechanical Engineering

English

Effects of Combustor Exit Profiles on Vane Aerodynamic Loading and Heat Transfer in a High Pressure Turbine

Journal of Turbomachinery

Mechanical Engineering

English

Studies on Transonic Turbine With Film-Cooled Blades

English

Effects of Shocks on the Unsteady Heat Transfer in a Film-Cooled Transonic Turbine Cascade

English

An Experimental Study of Heat Transfer and Film Cooling on Large-Scale Turbine Endwalls

English

Unsteady Heat Flux Measurements of Junction Flow With Reynolds Number and Freestream Turbulence Effects

English

Analysis of Heat Transfer on Turbine Moving Blades Using Microstructural Changes Deu to Aging.

Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B

Condensed Matter Physics

Mechanical Engineering

English