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EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS

Yıl 2017, Cilt: 18 Sayı: 5, 1018 - 1030, 31.12.2017

Öz

A
small-scale gas turbine jet engine was studied to compare the sustainability
performances at different part loads. To assess the performance of the jet
engine, experiments are conducted at four different part loads (part load-1,
part load-2, part load-3 and part load-4). According to the load types, the
energy and exergy rates of the engine components were investigated.
Sustainability indicators were used to analyze the jet engine. Parameters such
as exergy efficiency, waste exergy ratio, exergy destruction factor,
environmental effect factor and exergetic sustainability indicator were studied
to understand the effects of four load types. The compressor, combustion
chamber, turbine and nozzle are investigated. The maximum exergy efficiency of
the jet engine took place at part load-3 as 7.8%. The minimum waste exergy
ratio (0.9) and exergy destruction factor (0.9) were calculated at part load-4.
The minimum environmental effect factor and maximum exergetic sustainability
factor belong to part load-3 case. They were found to be 12.029 and 0.0831,
respectively. The maximum exergy destructions were observed in the combustion
chamber for all load types. They were found to be 48.96 kW, 57.14 kW, 67.93 kW
and 74.38 kW, respectively.

Kaynakça

  • [1] Turgut E.T., Karakoc T.H., Hepbasli A., Rosen M.A., Exergy analysis of a turbofan aircraft engine, International Journal of Exergy 2009; 6: 182-199.
  • [2] Altuntas O., Karakoc T.H., Hepbasli A., Exergetic, exergoeconomic and sustainability assessments of piston-prop aircraft engines, Journal of Thermal Science and Technology 2012; 32: 133-143.
  • [3] Aydın H., Turan O., Karakoc T.H., Midilli A., Exergo-sustainability indicators of a turboprop aircraft for the phases of a flight, Energy 2013; 58: 550-560.
  • [4] Aydın H., Turan O., Karakoc T.H., Midilli A., Sustainability assessment of PW6000 turbofan engine: an exergetic approach, International Journal of Exergy 2014; 14: 388-412.
  • [5] Aydın H., Turan O., Karakoc T.H., Midilli A., Exergetic sustainability indicators aa a tool in commercial aircraft: a case study for a turbofan engine, International Journal of Green Energy 2015; 12: 28-40.
  • [6] Balli O., Hepbasli A., Exergoeconomic, sustainability and environmental damage cost analyses of T56 turboprop engine, Energy 2014; 64: 582-600.
  • [7] Turan O., An exergy way to quantify sustainability metrics for a high bypass turbofan engine, Energy 2015; 86: 722-736.
  • [8] Kaya N., Turan O., Midilli A., Karakoc T.H., Exergetic sustainability improvement potentials of a hydrogen fuelled turbofan engine UAV by heating its fuel with exhaust gasses, International Journal of Hydrogen Energy 2016; 16: 8307-8322.
  • [9] Kelly S., Energy systems improvement based on endogenous and exogenous exergy destruction. Ph.D, Berlin Technical University, Berlin, Germany, 2008.
  • [10] Turan O., Exergetic effects of some design parameters on the small turbojet engine for unmanned air vehicle applications, Energy 2012; 46: 51-61
Yıl 2017, Cilt: 18 Sayı: 5, 1018 - 1030, 31.12.2017

Öz

Kaynakça

  • [1] Turgut E.T., Karakoc T.H., Hepbasli A., Rosen M.A., Exergy analysis of a turbofan aircraft engine, International Journal of Exergy 2009; 6: 182-199.
  • [2] Altuntas O., Karakoc T.H., Hepbasli A., Exergetic, exergoeconomic and sustainability assessments of piston-prop aircraft engines, Journal of Thermal Science and Technology 2012; 32: 133-143.
  • [3] Aydın H., Turan O., Karakoc T.H., Midilli A., Exergo-sustainability indicators of a turboprop aircraft for the phases of a flight, Energy 2013; 58: 550-560.
  • [4] Aydın H., Turan O., Karakoc T.H., Midilli A., Sustainability assessment of PW6000 turbofan engine: an exergetic approach, International Journal of Exergy 2014; 14: 388-412.
  • [5] Aydın H., Turan O., Karakoc T.H., Midilli A., Exergetic sustainability indicators aa a tool in commercial aircraft: a case study for a turbofan engine, International Journal of Green Energy 2015; 12: 28-40.
  • [6] Balli O., Hepbasli A., Exergoeconomic, sustainability and environmental damage cost analyses of T56 turboprop engine, Energy 2014; 64: 582-600.
  • [7] Turan O., An exergy way to quantify sustainability metrics for a high bypass turbofan engine, Energy 2015; 86: 722-736.
  • [8] Kaya N., Turan O., Midilli A., Karakoc T.H., Exergetic sustainability improvement potentials of a hydrogen fuelled turbofan engine UAV by heating its fuel with exhaust gasses, International Journal of Hydrogen Energy 2016; 16: 8307-8322.
  • [9] Kelly S., Energy systems improvement based on endogenous and exogenous exergy destruction. Ph.D, Berlin Technical University, Berlin, Germany, 2008.
  • [10] Turan O., Exergetic effects of some design parameters on the small turbojet engine for unmanned air vehicle applications, Energy 2012; 46: 51-61
Toplam 10 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Cem Tahsin Yücer

Yayımlanma Tarihi 31 Aralık 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 18 Sayı: 5

Kaynak Göster

APA Yücer, C. T. (2017). EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS. Anadolu University Journal of Science and Technology A - Applied Sciences and Engineering, 18(5), 1018-1030. https://doi.org/10.18038/aubtda.314816
AMA Yücer CT. EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS. AUBTD-A. Aralık 2017;18(5):1018-1030. doi:10.18038/aubtda.314816
Chicago Yücer, Cem Tahsin. “EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS”. Anadolu University Journal of Science and Technology A - Applied Sciences and Engineering 18, sy. 5 (Aralık 2017): 1018-30. https://doi.org/10.18038/aubtda.314816.
EndNote Yücer CT (01 Aralık 2017) EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS. Anadolu University Journal of Science and Technology A - Applied Sciences and Engineering 18 5 1018–1030.
IEEE C. T. Yücer, “EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS”, AUBTD-A, c. 18, sy. 5, ss. 1018–1030, 2017, doi: 10.18038/aubtda.314816.
ISNAD Yücer, Cem Tahsin. “EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS”. Anadolu University Journal of Science and Technology A - Applied Sciences and Engineering 18/5 (Aralık 2017), 1018-1030. https://doi.org/10.18038/aubtda.314816.
JAMA Yücer CT. EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS. AUBTD-A. 2017;18:1018–1030.
MLA Yücer, Cem Tahsin. “EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS”. Anadolu University Journal of Science and Technology A - Applied Sciences and Engineering, c. 18, sy. 5, 2017, ss. 1018-30, doi:10.18038/aubtda.314816.
Vancouver Yücer CT. EXERGETIC SUSTAINABILITY ASSESSMENT OF A GAS TURBINE JET ENGINE AT PART LOADS. AUBTD-A. 2017;18(5):1018-30.