Experimental and Numerical Investigation of Flow Field and Downstream Surface Temperatures of Cylindrical and Diffuser Shaped Film Cooling Holes1

Author:

Kampe Tilman auf dem1,Völker Stefan,Sämel Torsten2,Heneka Christian,Ladisch Helge,Schulz Achmed,Bauer Hans-Jörg3

Affiliation:

1. e-mail:

2. Siemens AG, Energy Sector Fossil Power Generation Division 45473 Mülheim a. d. Ruhr, Germany

3. Institut für Thermische Strömungsmaschinen, Karlsruhe Institute of Technology, 76131 Karlsruhe, Germany

Abstract

An experimental and numerical study of the flow field and the downstream film cooling performance of cylindrical and diffuser shaped cooling holes is presented. The measurements were conducted on a flat plate with a single cooling hole with coolant ejected from a plenum. The flow field was investigated by means of 3D-PIV as well as 3D-LDV measurements, the downstream film cooling effectiveness by means of infrared thermography. Cylindrical and diffuser holes without lateral inclination have been examined, varying blowing ratio and density ratio as well as freestream turbulence levels. 3D-CFD simulations have been performed and validated along with the experimental efforts. The results, presented in terms of contour plots of the three normalized velocity components as well as adiabatic film cooling effectiveness, clearly show the flow structure of the film cooling jets and the differences brought about by the variation of hole geometry and flow parameters. The quantitative agreement between experiment and CFD was reasonable, with better agreement for cylindrical holes than for diffuser holes.

Publisher

ASME International

Subject

Mechanical Engineering

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