The performance continuum for air-breathing engines is formally developed and illustrated in terms of fundamental thermodynamic quantities including heat and work interactions and the irreversibility occurring in the flow-path of the engine. The thermodynamically consistent base-line from which performance losses due to irreversibility must be measured is clearly defined based on this analysis. Issues and problems with conventional flow availability (flow exergy) in terms of the assessment (design and optimization) of jet engines are discussed. The formal analytical relationship between lost thrust work and the irreversible generation of entropy in a jet engine is then reviewed in terms of underlying principle and methodology used to quanti...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...
“Theoretical principles and analytical methodology for the control volume-based energy availability ...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.This pa...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
This paper develops and describes work potential analysis methods applicable to turboshaft engine fl...
Recently developed methodology that provides the direct assessment of traditional thrust-based perfo...
An optimal baseline turbofan cycle designed for a performance level expected to be available around ...
Presented at the 39th AIAA, Aerospace Sciences Meeting and Exhibit, Reno, NV, January 9-11, 2001.Thi...
Presented at the 36th Joint Propulsion Conference and Exhibit, Huntsville, AL, July 2000.The objecti...
58th American Helicopter Society Forum, Montreal, Canada, June 11-13, 2002.This paper develops and d...
A comparative study of high-speed engine performance assessment techniques based on exergy (availabl...
The fundamental relationship between entropy and aerospace vehicle and mission performance is analyz...
The first and second laws applied to steady-flow systems are expressed in forms which emphasize the ...
Analysis of the Second Law of Thermodynamics is discussed. Keenan's approach to availability and irr...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...
“Theoretical principles and analytical methodology for the control volume-based energy availability ...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.This pa...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
Aero engine performance analysis is highly multidimensional using various measures of component perf...
This paper develops and describes work potential analysis methods applicable to turboshaft engine fl...
Recently developed methodology that provides the direct assessment of traditional thrust-based perfo...
An optimal baseline turbofan cycle designed for a performance level expected to be available around ...
Presented at the 39th AIAA, Aerospace Sciences Meeting and Exhibit, Reno, NV, January 9-11, 2001.Thi...
Presented at the 36th Joint Propulsion Conference and Exhibit, Huntsville, AL, July 2000.The objecti...
58th American Helicopter Society Forum, Montreal, Canada, June 11-13, 2002.This paper develops and d...
A comparative study of high-speed engine performance assessment techniques based on exergy (availabl...
The fundamental relationship between entropy and aerospace vehicle and mission performance is analyz...
The first and second laws applied to steady-flow systems are expressed in forms which emphasize the ...
Analysis of the Second Law of Thermodynamics is discussed. Keenan's approach to availability and irr...
The application of exergy analysis to aerospace systems requires proper analysis of the entropy gene...
“Theoretical principles and analytical methodology for the control volume-based energy availability ...
Presented at the 37th Joint Propulsion Conference and Exhibit, Salt Lake City, UT, July 2001.This pa...