Araştırma Makalesi
BibTex RIS Kaynak Göster

Effects of Using JP8-Diesel Fuel Mixtures in a Pump Injector Engine on Engine Performance

Yıl 2019, , 106 - 111, 31.12.2019
https://doi.org/10.30516/bilgesci.652473

Öz

JP-8 fuel used in the aviation industry, especially in military fields, is used as a common military fuel between NATO countries. As the basic substance of JP-8 fuel, kerosene flares at high temperatures directly increase aircraft safety and freezing point is around -49 ° C, it is advantageous to use easily in fuel systems. In this study, the effects of jp-8 and diesel fuel mixtures on engine performance were investigated experimentally. A 3-cylinder, four-stroke, turbocharged diesel engine with pump injector fuel system was used for this purpose. 5% JP8 was added to diesel fuel. It was used as a fuel in the engine and the obtained values were analyzed according to the diesel fuel.

Kaynakça

  • Asokan, M. A., S. Senthur Prabu, P. K. K. Bade, V. M. Nekkanti and S. S. G. Gutta (2019). "Performance, combustion and emission characteristics of juliflora biodiesel fuelled DI diesel engine." Energy 173: 883-892.
  • Fernandes, G., J. Fuschetto, Z. Filipi, D. Assanis and H. McKee (2007). "Impact of military JP-8 fuel on heavy-duty diesel engine performance and emissions." Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 221(8): 957-970.
  • Lee, J. and C. Bae (2011). "Application of JP-8 in a heavy duty diesel engine." Fuel 90(5): 1762-1770.
  • Lee, J., J. Lee, S. Chu, H. Choi and K. Min (2015). "Emission reduction potential in a light-duty diesel engine fueled by JP-8." Energy 89: 92-99.
  • Lee, J., H. Oh and C. Bae (2012). "Combustion process of JP-8 and fossil Diesel fuel in a heavy duty diesel engine using two-color thermometry." Fuel 102: 264-273.
  • Ning, L., Q. Duan, Y. Wei, X. Zhang, K. Yu, B. Yang and K. Zeng (2019). "Effects of injection timing and compression ratio on the combustion performance and emissions of a two-stroke DISI engine fuelled with aviation kerosene." Applied Thermal Engineering 161.
  • Sogut, M. Z., Ö. Seçgin and S. Ozkaynak (2019). "Investigation of thermodynamics performance of alternative jet fuels based on decreasing threat of paraffinic and sulfur." Energy 181: 1114-1120.
  • Sundararaj, R. H., R. D. Kumar, A. K. Raut, T. C. Sekar, V. Pandey, A. Kushari and S. K. Puri (2019). "Combustion and emission characteristics from biojet fuel blends in a gas turbine combustor." Energy 182: 689-705.
  • Sungur, B. and Topaloglu, B. (2018). “Numerical Analyses of the Effects of Fuel Load Variation on Combustion Performance of a Pellet Fuelled Boiler” Bilge International Journal of Science and Technology Research 2(1): 1-8.
  • Uyumaz, A., H. Solmaz, E. Yılmaz, H. Yamık and S. Polat (2014). "Experimental examination of the effects of military aviation fuel JP-8 and biodiesel fuel blends on the engine performance, exhaust emissions and combustion in a direct injection engine." Fuel Processing Technology 128: 158-165.
  • Wei, H., W. Liu, X. Chen, Q. Yang, J. Li and H. Chen (2019). "Renewable bio-jet fuel production for aviation: A review." Fuel 254.
Yıl 2019, , 106 - 111, 31.12.2019
https://doi.org/10.30516/bilgesci.652473

Öz

Kaynakça

  • Asokan, M. A., S. Senthur Prabu, P. K. K. Bade, V. M. Nekkanti and S. S. G. Gutta (2019). "Performance, combustion and emission characteristics of juliflora biodiesel fuelled DI diesel engine." Energy 173: 883-892.
  • Fernandes, G., J. Fuschetto, Z. Filipi, D. Assanis and H. McKee (2007). "Impact of military JP-8 fuel on heavy-duty diesel engine performance and emissions." Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 221(8): 957-970.
  • Lee, J. and C. Bae (2011). "Application of JP-8 in a heavy duty diesel engine." Fuel 90(5): 1762-1770.
  • Lee, J., J. Lee, S. Chu, H. Choi and K. Min (2015). "Emission reduction potential in a light-duty diesel engine fueled by JP-8." Energy 89: 92-99.
  • Lee, J., H. Oh and C. Bae (2012). "Combustion process of JP-8 and fossil Diesel fuel in a heavy duty diesel engine using two-color thermometry." Fuel 102: 264-273.
  • Ning, L., Q. Duan, Y. Wei, X. Zhang, K. Yu, B. Yang and K. Zeng (2019). "Effects of injection timing and compression ratio on the combustion performance and emissions of a two-stroke DISI engine fuelled with aviation kerosene." Applied Thermal Engineering 161.
  • Sogut, M. Z., Ö. Seçgin and S. Ozkaynak (2019). "Investigation of thermodynamics performance of alternative jet fuels based on decreasing threat of paraffinic and sulfur." Energy 181: 1114-1120.
  • Sundararaj, R. H., R. D. Kumar, A. K. Raut, T. C. Sekar, V. Pandey, A. Kushari and S. K. Puri (2019). "Combustion and emission characteristics from biojet fuel blends in a gas turbine combustor." Energy 182: 689-705.
  • Sungur, B. and Topaloglu, B. (2018). “Numerical Analyses of the Effects of Fuel Load Variation on Combustion Performance of a Pellet Fuelled Boiler” Bilge International Journal of Science and Technology Research 2(1): 1-8.
  • Uyumaz, A., H. Solmaz, E. Yılmaz, H. Yamık and S. Polat (2014). "Experimental examination of the effects of military aviation fuel JP-8 and biodiesel fuel blends on the engine performance, exhaust emissions and combustion in a direct injection engine." Fuel Processing Technology 128: 158-165.
  • Wei, H., W. Liu, X. Chen, Q. Yang, J. Li and H. Chen (2019). "Renewable bio-jet fuel production for aviation: A review." Fuel 254.
Toplam 11 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makaleleri
Yazarlar

Hasan Aydoğan

Emin Çağatay Altınok

Yayımlanma Tarihi 31 Aralık 2019
Kabul Tarihi 31 Aralık 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Aydoğan, H., & Altınok, E. Ç. (2019). Effects of Using JP8-Diesel Fuel Mixtures in a Pump Injector Engine on Engine Performance. Bilge International Journal of Science and Technology Research, 3, 106-111. https://doi.org/10.30516/bilgesci.652473