Research Article
Year 2021,
Volume: 2 Issue: 1, 14 - 17, 01.05.2021
Abstract
References
- Dincer, I., Rosen, M.A., Exergy: energy, environment and sustainable development, Elsevier, 2012.
- Tsatsaronis, G., 2007. Definitions and nomenclature in exergy analysis and exergoeconomics, Energy, 32, 249-253.
- Turgut, E.T., Karakoc, T.H., Hepbasli, A., 2009. Exergoeconomic analysis of an aircraft turbofan engine, International Journal of Exergy, 6, 277-294.
- Aydin, H., Turan, O., Midilli, A., Karakoc, T.H., 2012. Exergetic and exergo-economic analysis of a turboprop engine: a case study for CT7-9C, International Journal of Exergy, 11, 69-88.
- Aydin, H., Turan, O., Midilli, A., Karakoc, T.H., 2013. Energetic and exergetic performance assessment of a turboprop engine at various loads, International Journal of Exergy,13,543-564.
- Balli, O., Hepbasli, A., 2013. Exergoeconomic, sustainability and environmental damage cost analyses of T56 turboprop engine, Energy, 64, 582-600.
- Tona, C., Antonio, P., Pellegrini, L.F., de Oliveira, Jr. S., 2010. Exergy and thermoeconomic analysis of a turbofan engine during a typical commercial flight, Energy, 35, 952-959.
- Tai, V.C., See, P.C., Mares, C., 2014. Optimisation of energy and exergy of turbofan engines using genetic algorithms, International Journal of Sustainable Aviation, 1, 25-42.
- Moran, M.J., Shapiro, H.N., Boettner, D.D., Bailey, M.B., Fundamentals of engineering thermodynamics, John Wiley & Sons Inc, 2011.
- Romero, J. C., Linares, P., 2014. Exergy as a global energy sustainability indicator: a review of the state of the art, Renewable and Sustainable Energy Reviews, 33, 427-442.
- Kotas, T.J., The exergy method of thermal plant analysis, Exergon Publishing Company UK Ltd., London, 2012.
- Heywood, J.B., Internal combustion engine fundamentals, McGraw-Hill, 1988.
- Tsatsaronis, G., 1993. Thermoeconomic analysis and optimization of energy systems, Progress in Energy and Combustion Systems, 19, 227-257.
- Van Gool, W., 1992. Exergy analysis of industrial processes, Energy, 17, 791-803.
- Xiang, J.Y., Cali, M. and Santarelli, M., 2004. Calculation for physical and chemical exergy of flows in systems elaborating mixed-phase flows and a case study in an IRSOFC plant, International Journal of Energy Research, 28, 101-115.
Year 2021,
Volume: 2 Issue: 1, 14 - 17, 01.05.2021
Abstract
Gas turbine aircraft engines are the most commonly used engine type in today's aircrafts. Turbojet engine, which is one of the gas turbine engine type, is used especially in warplanes and some passenger planes with its high power generation and speed. In this study, the thermodynamic analysis of a small-scale jet engine that generates thrust with reaction from gas turbine engine is carried out with the data obtained under real operating conditions. With the analysis, exergy destructions, exergy efficiency, exergy improvement potential and relative exergy destroying rate of small-scale jet engine parts were calculated. According to the results obtained, it was seen that the greatest exergy destruction was in the combustion chamber, so at first, the exergy improvement should be done in the combustion chamber.
References
- Dincer, I., Rosen, M.A., Exergy: energy, environment and sustainable development, Elsevier, 2012.
- Tsatsaronis, G., 2007. Definitions and nomenclature in exergy analysis and exergoeconomics, Energy, 32, 249-253.
- Turgut, E.T., Karakoc, T.H., Hepbasli, A., 2009. Exergoeconomic analysis of an aircraft turbofan engine, International Journal of Exergy, 6, 277-294.
- Aydin, H., Turan, O., Midilli, A., Karakoc, T.H., 2012. Exergetic and exergo-economic analysis of a turboprop engine: a case study for CT7-9C, International Journal of Exergy, 11, 69-88.
- Aydin, H., Turan, O., Midilli, A., Karakoc, T.H., 2013. Energetic and exergetic performance assessment of a turboprop engine at various loads, International Journal of Exergy,13,543-564.
- Balli, O., Hepbasli, A., 2013. Exergoeconomic, sustainability and environmental damage cost analyses of T56 turboprop engine, Energy, 64, 582-600.
- Tona, C., Antonio, P., Pellegrini, L.F., de Oliveira, Jr. S., 2010. Exergy and thermoeconomic analysis of a turbofan engine during a typical commercial flight, Energy, 35, 952-959.
- Tai, V.C., See, P.C., Mares, C., 2014. Optimisation of energy and exergy of turbofan engines using genetic algorithms, International Journal of Sustainable Aviation, 1, 25-42.
- Moran, M.J., Shapiro, H.N., Boettner, D.D., Bailey, M.B., Fundamentals of engineering thermodynamics, John Wiley & Sons Inc, 2011.
- Romero, J. C., Linares, P., 2014. Exergy as a global energy sustainability indicator: a review of the state of the art, Renewable and Sustainable Energy Reviews, 33, 427-442.
- Kotas, T.J., The exergy method of thermal plant analysis, Exergon Publishing Company UK Ltd., London, 2012.
- Heywood, J.B., Internal combustion engine fundamentals, McGraw-Hill, 1988.
- Tsatsaronis, G., 1993. Thermoeconomic analysis and optimization of energy systems, Progress in Energy and Combustion Systems, 19, 227-257.
- Van Gool, W., 1992. Exergy analysis of industrial processes, Energy, 17, 791-803.
- Xiang, J.Y., Cali, M. and Santarelli, M., 2004. Calculation for physical and chemical exergy of flows in systems elaborating mixed-phase flows and a case study in an IRSOFC plant, International Journal of Energy Research, 28, 101-115.
There are 15 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Aerospace Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | May 1, 2021 |
| Submission Date | March 15, 2021 |
| Published in Issue | Year 2021 Volume: 2 Issue: 1 |
Cite
International Journal of Aeronautics and Astronautics is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY NC).