Turbomachinery active subspace performance maps are two-dimensional (2D) contour plots that illustrate the variation of key flow performance metrics with different blade designs. While such maps are easy to construct for design parameterizations with two variables, in this paper, maps will be generated for a fan blade with twenty-five design variables. Turbomachinery active subspace performance maps combine active subspaces—a new set of ideas for dimension reduction—with fundamental turbomachinery aerodynamics and design spaces. In this paper, contours of (i) cruise efficiency, (ii) cruise pressure ratio (PR), (iii) maximum climb flow capacity, and (iv) sensitivity to manufacturing variations are plotted as objectives for the fan. These maps are then used to infer pedigree design rules: how best to increase fan efficiency; how best to desensitize blade aerodynamics to the impact of manufacturing variations? In the present study, the former required both a reduction in PR and flow capacity—leading to a reduction of the strength of the leading edge bow wave—while the latter required strictly a reduction in flow capacity. While such pedigree rules can be obtained from first principles, in this paper, these rules are derived from the active subspaces. This facilitates a more detailed quantification of the aerodynamic trade-offs. Thus, instead of simply stating that a particular design is more sensitive to manufacturing variations; or that it lies on a hypothetical “efficiency cliff,” this paper seeks to visualize, quantify, and make precise such notions of turbomachinery design.
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April 2018
Research-Article
Turbomachinery Active Subspace Performance Maps
Shahrokh Shahpar,
Shahrokh Shahpar
CFD Methods,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
Rolls-Royce plc.,
Derby DE24 8BJ, UK
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Paul Constantine,
Paul Constantine
Department of Computer Science,
University of Colorado,
Boulder, CO 80309
University of Colorado,
Boulder, CO 80309
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Geoffrey Parks,
Geoffrey Parks
Department of Engineering,
University of Cambridge,
Cambridge CB2 1PZ, UK
University of Cambridge,
Cambridge CB2 1PZ, UK
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Mike Adams
Mike Adams
Fan and Compressor Subsystems,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
Rolls-Royce plc.,
Derby DE24 8BJ, UK
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Pranay Seshadri
Shahrokh Shahpar
CFD Methods,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
Rolls-Royce plc.,
Derby DE24 8BJ, UK
Paul Constantine
Department of Computer Science,
University of Colorado,
Boulder, CO 80309
University of Colorado,
Boulder, CO 80309
Geoffrey Parks
Department of Engineering,
University of Cambridge,
Cambridge CB2 1PZ, UK
University of Cambridge,
Cambridge CB2 1PZ, UK
Mike Adams
Fan and Compressor Subsystems,
Rolls-Royce plc.,
Derby DE24 8BJ, UK
Rolls-Royce plc.,
Derby DE24 8BJ, UK
1Corresponding author.
Contributed by the International Gas Turbine Institute (IGTI) of ASME for publication in the JOURNAL OF TURBOMACHINERY. Manuscript received October 21, 2017; final manuscript received December 27, 2017; published online January 17, 2018. Editor: Kenneth Hall.
J. Turbomach. Apr 2018, 140(4): 041003 (11 pages)
Published Online: January 17, 2018
Article history
Received:
October 21, 2017
Revised:
December 27, 2017
Citation
Seshadri, P., Shahpar, S., Constantine, P., Parks, G., and Adams, M. (January 17, 2018). "Turbomachinery Active Subspace Performance Maps." ASME. J. Turbomach. April 2018; 140(4): 041003. https://doi.org/10.1115/1.4038839
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