This paper compares predictions from a 3-D Reynolds-Averaged Navier-Stokes code and a statistical representation of measurements from a cooled 1-1/2 stage high-pressure transonic turbine to quantify predictive process sensitivity. A multivariable regression technique was applied to both the inlet temperature measurements obtained at the inlet rake, and the wall temperature and heat transfer measurements obtained via heat-flux gauges on the blade airfoil surfaces. By using the statistically-modeled temperature profiles to generate the inlet boundary conditions for the Computational Fluid Dynamics (CFD) analysis, the sensitivity of blade heat transfer predictions due to the variation in the inlet temperature profile and uncertainty in wall temperature measurements and surface roughness is calculated. All predictions are performed with and without cooling. Heat transfer predictions match reasonably well with the statistical representation of the data, both with and without cooling. Predictive precision for this study is driven primarily by inlet profile uncertainty followed by surface roughness and gauge position uncertainty.
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ASME Turbo Expo 2013: Turbine Technical Conference and Exposition
June 3–7, 2013
San Antonio, Texas, USA
Conference Sponsors:
- International Gas Turbine Institute
ISBN:
978-0-7918-5516-4
PROCEEDINGS PAPER
Comparison of Temperature Profile and Heat Transfer Predictions With Statistically-Modeled Data From a Cooled 1-1/2 Stage High-Pressure Transonic Turbine
Harika S. Kahveci,
Harika S. Kahveci
GE Power & Water, Greenville, SC
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Kevin R. Kirtley
Kevin R. Kirtley
GE Power & Water, Greenville, SC
Search for other works by this author on:
Harika S. Kahveci
GE Power & Water, Greenville, SC
Kevin R. Kirtley
GE Power & Water, Greenville, SC
Paper No:
GT2013-94242, V03CT14A001; 16 pages
Published Online:
November 14, 2013
Citation
Kahveci, HS, & Kirtley, KR. "Comparison of Temperature Profile and Heat Transfer Predictions With Statistically-Modeled Data From a Cooled 1-1/2 Stage High-Pressure Transonic Turbine." Proceedings of the ASME Turbo Expo 2013: Turbine Technical Conference and Exposition. Volume 3C: Heat Transfer. San Antonio, Texas, USA. June 3–7, 2013. V03CT14A001. ASME. https://doi.org/10.1115/GT2013-94242
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