A comparative study of high-speed engine performance assessment techniques based on exergy (available work) and thrust potential (thrust availability) is summarized. Simple one-dimensional flowfields utilizing Rayleigh heat addition and friction are used to demonstrate the inability of conventional exergy techniques to predict engine component performance, aid in component design, or accurately assess flow losses. The thrust-based method yields useful information in all of these categories for these flows. The conventional definition of exergy includes work that is inherently unavailable to an aerospace Brayton engine. An engine-based exergy is developed that accurately accounts for this inherently unavailable work; performance parameters b...
Though the field of hypersonic vehicle design is thriving again, few studies to date demonstrate the...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.There i...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Recently developed methodology that provides the direct assessment of traditional thrust-based perfo...
Expressions for the thrust losses of a scramjet engine are developed in terms of irreversible entrop...
The methodology developed in Part 1 of this investigation (Riggins, D. W., McClinton, C. R., and Vit...
Exergy analysis permits meaningful efficiencies, which are a measure of approach to ideality, to be ...
Presented at the 35th Joint Propulsion Conference, Los Angeles, CA, June 1999.The objective of this ...
Proceedings of GT2005: ASME Turbo Expo2005: Land, Sea and Air, June 6-9, 2005, Reno-TahoeThis paper ...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.This pa...
Presented at the 36th Joint Propulsion Conference and Exhibit, Huntsville, AL, July 2000.The objecti...
The performance continuum for air-breathing engines is formally developed and illustrated in terms o...
The present text draws attention to three interrelated topics; aero engine system simulation, evalua...
Though the field of hypersonic vehicle design is thriving again, few studies to date demonstrate the...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.There i...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Recently developed methodology that provides the direct assessment of traditional thrust-based perfo...
Expressions for the thrust losses of a scramjet engine are developed in terms of irreversible entrop...
The methodology developed in Part 1 of this investigation (Riggins, D. W., McClinton, C. R., and Vit...
Exergy analysis permits meaningful efficiencies, which are a measure of approach to ideality, to be ...
Presented at the 35th Joint Propulsion Conference, Los Angeles, CA, June 1999.The objective of this ...
Proceedings of GT2005: ASME Turbo Expo2005: Land, Sea and Air, June 6-9, 2005, Reno-TahoeThis paper ...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.This pa...
Presented at the 36th Joint Propulsion Conference and Exhibit, Huntsville, AL, July 2000.The objecti...
The performance continuum for air-breathing engines is formally developed and illustrated in terms o...
The present text draws attention to three interrelated topics; aero engine system simulation, evalua...
Though the field of hypersonic vehicle design is thriving again, few studies to date demonstrate the...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.There i...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...