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Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System

Year 2003, Volume: 6 Issue: 3, 93 - 105, 01.09.2003

Diego Rancruel Michael Von Spakovsky

Abstract

A decomposition methodology based on the concept of “thermoeconomic isolation” and applied to the synthesis/design and operational optimization of an advanced tactical fighter aircraft is the focus of this paper. The most promising set of aircraft sub-system configurations, based on both an energy integration analysis and aerodynamic performance, were first developed and detailed thermodynamic, geometric, physical, and aerodynamic models at both design and off-design were formulated and implemented. Conceptual, time, and physical decomposition were then applied to the synthesis/design and operational optimization of the aircraft system. The physical decomposition strategy used, called Iterative Local-Global Optimization (ILGO), was developed by Muñoz and von Spakovsky (2001a,b) and has been applied to a number of complex stationary and transportation applications. This decomposition strategy is the first to successfully closely approach the theoretical condition of “thermoeconomic isolation” when applied to highly complex, highly dynamic non-linear systems.

Keywords

decomposition thermoeconomic isolation large-scale optimization synthesis/design aircraft systems

Year 2003, Volume: 6 Issue: 3, 93 - 105, 01.09.2003

Diego Rancruel Michael Von Spakovsky

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Diego Rancruel This is me

Michael Von Spakovsky

Publication Date September 1, 2003
Published in Issue Year 2003 Volume: 6 Issue: 3

Cite

APA Rancruel, D., & Von Spakovsky, M. (2003). Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System. International Journal of Thermodynamics, 6(3), 93-105.
AMA Rancruel D, Von Spakovsky M. Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System. International Journal of Thermodynamics. September 2003;6(3):93-105.
Chicago Rancruel, Diego, and Michael Von Spakovsky. “Decomposition With Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System”. International Journal of Thermodynamics 6, no. 3 (September 2003): 93-105.
EndNote Rancruel D, Von Spakovsky M (September 1, 2003) Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System. International Journal of Thermodynamics 6 3 93–105.
IEEE D. Rancruel and M. Von Spakovsky, “Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System”, International Journal of Thermodynamics, vol. 6, no. 3, pp. 93–105, 2003.
ISNAD Rancruel, Diego - Von Spakovsky, Michael. “Decomposition With Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System”. International Journal of Thermodynamics 6/3 (September 2003), 93-105.
JAMA Rancruel D, Von Spakovsky M. Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System. International Journal of Thermodynamics. 2003;6:93–105.
MLA Rancruel, Diego and Michael Von Spakovsky. “Decomposition With Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System”. International Journal of Thermodynamics, vol. 6, no. 3, 2003, pp. 93-105.
Vancouver Rancruel D, Von Spakovsky M. Decomposition with Thermoeconomic Isolation Applied to the Optimal Synthesis/Design of an Advanced Tactical Aircraft System. International Journal of Thermodynamics. 2003;6(3):93-105.