Discharge coefficients of three film-cooling hole geometries are presented over a wide range of engine like conditions. The hole geometries comprise a cylindrical hole and two holes with a diffuser-shaped exit portion (a fanshaped and a laidback fanshaped hole). For all three hole geometries the hole axis was inclined 30 deg with respect to the direction of the external (hot gas) flow. The flow conditions considered were the hot gas crossflow Mach number (up to 0.6), the coolant crossflow Mach number (up to 0.6) and the pressure ratio across the hole (up to 2). The effect of internal crossflow approach direction, perpendicular or parallel to the main flow direction, is particularly addressed in the present study. Comparison is made of the results for a parallel and perpendicular orientation, showing that the coolant crossflow orientation has a strong impact on the discharge behavior of the different hole geometries. The discharge coefficients were found to strongly depend on both hole geometry and crossflow conditions. Furthermore, the effects of internal and external crossflow on the discharge coefficients were described by means of correlations used to derive a predicting scheme for discharge coefficients. A comparison between predictions and measurements reveals the capability of the method proposed. [S0889-504X(00)01601-9]
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January 2000
Technical Papers
Effect of Internal Coolant Crossflow Orientation on the Discharge Coefficient of Shaped Film-Cooling Holes
M. Gritsch,
M. Gritsch
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
11
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C. Saumweber,
C. Saumweber
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
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A. Schulz,
A. Schulz
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
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S. Wittig,
S. Wittig
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
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E. Sharp
E. Sharp
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
22
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M. Gritsch
11
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
C. Saumweber
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
A. Schulz
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
S. Wittig
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
E. Sharp
22
Lehrstuhl und Institut fu¨r Thermische Stro¨mungsmaschinen, Universita¨t Karlsruhe (T.H.), Kaiserstr. 12, 76128 Karlsruhe, Germany
Contributed by the International Gas Turbine Institute and presented at the 44th International Gas Turbine and Aeroengine Congress and Exhibition, Indianapolis, Indiana, June 7–10, 1999. Manuscript received by the International Gas Turbine Institute February 1999. Paper No. 98-GT-40. Review Chair: D. C. Wisler.
J. Turbomach. Jan 2000, 122(1): 146-152 (7 pages)
Published Online: February 1, 1999
Article history
Received:
February 1, 1999
Citation
Gritsch , M., Saumweber , C., Schulz , A., Wittig , S., and Sharp , E. (February 1, 1999). "Effect of Internal Coolant Crossflow Orientation on the Discharge Coefficient of Shaped Film-Cooling Holes ." ASME. J. Turbomach. January 2000; 122(1): 146–152. https://doi.org/10.1115/1.555436
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