Avoiding aerodynamic separation and excessive shock losses in gas turbine turbomachinery components can reduce fuel usage and thus reduce operating cost. In order to achieve this, blading designs should be made robust to a wide range of operating conditions. Consequently, a design tool is needed—one that can be executed quickly for each of many operating conditions and on each of several design sections, which will accurately capture loss, turning, and loading. This paper presents the validation of a boundary layer code, MISES, versus experimental data from a 2D linear cascade approximating the performance of a moderately loaded mid-pitch section from a modern aircraft high-pressure turbine. The validation versus measured loading, turning, and total pressure loss is presented for a range of exit Mach numbers from to 1.2 and across a range of incidence from to relative to design incidence.
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July 2009
Research Papers
Validation of MISES Two-Dimensional Boundary Layer Code for High-Pressure Turbine Aerodynamic Design
Philip L. Andrew,
Philip L. Andrew
GE Energy
, Greenville, SC 29615
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Harika S. Kahveci
Harika S. Kahveci
GE Energy
, Greenville, SC 29615
Search for other works by this author on:
Philip L. Andrew
GE Energy
, Greenville, SC 29615
Harika S. Kahveci
GE Energy
, Greenville, SC 29615J. Turbomach. Jul 2009, 131(3): 031013 (11 pages)
Published Online: April 10, 2009
Article history
Received:
April 5, 2008
Revised:
April 21, 2008
Published:
April 10, 2009
Citation
Andrew, P. L., and Kahveci, H. S. (April 10, 2009). "Validation of MISES Two-Dimensional Boundary Layer Code for High-Pressure Turbine Aerodynamic Design." ASME. J. Turbomach. July 2009; 131(3): 031013. https://doi.org/10.1115/1.2988165
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