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Bibframe Work

Title
Exergy analysis and design optimization for aerospace vehicles and systems
Type
Text
Language
English
Illustrative Content
illustrations
Classification
LCC: TL875 .E98 2011 (Source: dlc)
LCC: TL507 .P75 v. 238
Identified By
Lccn: 2012538904
Table Of Contents
Introduction / David J. Moorhouse and José A. Camberos
Fundamentals of exergy analysis / José A. Camberos and John H. Doty
Applications of exergy analysis / John H. Doty and José A. Camberos
Integrated subsystem analysis using entropy generation minimization / Richard S. Figliola, Robert Tipton and Haipeng Li
Exergy-based design methodology for airfoil shape optimization and wing analysis / Richard S. Figliola
Entropy generation and aerospace vehicle performance / David W. Riggins, David J. Moorhouse, and José A. Camberos
Optimization using entropy-generation minimization for maximum performance of hypersonic vehicles / David W. Riggins, David J. Moorhouse, José A. Camberos, and Michael von Spakovsky
Characterization of aerospace vehicle performance and mission analysis using exergy / David W. Riggins, David J. Moorhouse, and José A. Camberos
Mission-integrated synthesis and design optimization (MIS/DO) of aerospace vehicles / Michael von Spakovsky
MIS/DO applied to high performance aerospace vehicles / Michael von Spakovsky
Thermodynamics, entropy generation minimization, and the constructal law / Adrian Bejan
Quantum thermodynamics and the modeling of nonequilibrium phenomena: theory and future directions / Michael von Spakovsky
Numerical methods in light of the second law / José A. Camberos.
Authorized Access Point
Camberos, José A. Exergy analysis and design optimization for aerospace vehicles and systems
Authorized Access Point Variant
Moorhouse, David J. (David John), 1939- Exergy analysis and design optimization for aerospace vehicles and systems
American Institute of Aeronautics and Astronautics. Exergy analysis and design optimization for aerospace vehicles and systems