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The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems

Year 2001, Volume: 4 Issue: 2, 61 - 76, 01.06.2001

Abstract

An application of a decomposition approach for large-scale optimization (i.e., the Iterative Local-Global Optimization (ILGO) approach) developed by Muñoz and von Spakovsky (2001) is presented. The synthesis / design optimization of a turbofan engine coupled to an environmental control system for a military aircraft was carried out. The problem was solved for a given mission (i.e. a load / environmental profile) composed of fifteen segments. The number of decision (independent) variables both discrete and continuous for this highly non-linear optimization problem was one hundred fifty-three. Both the thermodynamic and physical (weight and volume) simulations were carried out using state-of-the art tools. Three objective functions were investigated: take-off gross weight, mission fuel consumption and total cost, and no observable differences were found in the final results. In addition to the mathematical foundations for global convergence presented in Muñoz and von Spakovsky (2000b, 2001), convergence was validated numerically by solving the entire mixed-integer non-linear programming (MINLP) problem without decomposition using a subset of the independent variables. The constant value of the shadow prices (or linear behavior of the Optimum Response Surface – OSR) played a major role in global convergence of the ILGO approach.

Year 2001, Volume: 4 Issue: 2, 61 - 76, 01.06.2001

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Jules Muñoz This is me

Michael Von Spakovsky

Publication Date June 1, 2001
Published in Issue Year 2001 Volume: 4 Issue: 2

Cite

APA Muñoz, J., & Von Spakovsky, M. (2001). The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems. International Journal of Thermodynamics, 4(2), 61-76.
AMA Muñoz J, Von Spakovsky M. The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems. International Journal of Thermodynamics. June 2001;4(2):61-76.
Chicago Muñoz, Jules, and Michael Von Spakovsky. “The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems”. International Journal of Thermodynamics 4, no. 2 (June 2001): 61-76.
EndNote Muñoz J, Von Spakovsky M (June 1, 2001) The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems. International Journal of Thermodynamics 4 2 61–76.
IEEE J. Muñoz and M. Von Spakovsky, “The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems”, International Journal of Thermodynamics, vol. 4, no. 2, pp. 61–76, 2001.
ISNAD Muñoz, Jules - Von Spakovsky, Michael. “The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems”. International Journal of Thermodynamics 4/2 (June 2001), 61-76.
JAMA Muñoz J, Von Spakovsky M. The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems. International Journal of Thermodynamics. 2001;4:61–76.
MLA Muñoz, Jules and Michael Von Spakovsky. “The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems”. International Journal of Thermodynamics, vol. 4, no. 2, 2001, pp. 61-76.
Vancouver Muñoz J, Von Spakovsky M. The Application of Decomposition to the Large Scale Synthesis/Design Optimization of Aircraft Energy Systems. International Journal of Thermodynamics. 2001;4(2):61-76.