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The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine

Year 2021, Volume: 5 Issue: 2, 157 - 165, 30.06.2021
https://doi.org/10.30939/ijastech..910542

Abstract

Mixture formation in port fuel spark ignition engines is one of the most im-portant parameters, which affect combustion and emissions. In this study, the ef-fects of different injection start timings and some other port fuel injection (PFI) parameters on the performance and emissions of a water cooled and single cylin-der spark ignition engine were examined experimentally. The experiments were performed at different engine speeds (1200 and 1500 rpm for effect of injection pressure and 1500 rpm for changing injection timings) and different engine loads (3 bar and 5 bar for injection pressure and 1 bar and 5 bar for start of injection). The start of injection was chosen according to intake pressure measurements. The experiment results showed that brake specific fuel consumption (BSFC) and total hydrocarbon (THC) emissions are increased by the increase of the injection pressure. Because with the increase of injection pressure, the fuel can reach the intake manifold wall or intake valve. Therefore, the fuel enters the cylinder as a droplet. Different start of injection experiments showed that injection times have an effect on emissions and performance. The minimum brake specific fuel con-sumption and THC values were obtained at -243 °CA value of injection start. The twice injection in one cycle increased brake specific fuel consumption and THC emissions.

Supporting Institution

Istanbul Technical University Scientific Research Project Unit

Project Number

39596

Thanks

The Authors thank the supporter of this project Istanbul Technical University Scientific Research Project Unit, Turkey Bosch auto parts, OTAM and team of automotive laboratory.

References

  • Heywood, J.B. (1988). Internal combustion engine fundamentals. McGraw-Hill, Newyork.
  • Pulkrabek, W. (1997). Engineering fundamentals of the internal combustion engine. Prentice-Hall, New Jersey.
  • Nakao, Y., Uchiyama, Y., Hisano, A., Saitou, M. and Sobakiri, K. (2018). Effects of port injection specifications on air-fuel ratio and emission behavior under transient operation. SAE Technical Paper, 2018-32-0012, 1-14.
  • Costanzo, V.S. and Heywood, J.B. (2005). Mixture preparation mechanisms in a port fuel injected engine. SAE Technical Paper, 2005-01-2080, 1-15.
  • Balki, M.K., Cavus, V., Duran, İ.U., Tuna, R. and Sayin, C. (2018). Experimental study and prediction of performance and emission in an SI engine using alternative fuel with artificial neural network. International Journal of Automotive Engineering and Technologies, 7, 58–64.
  • Yontar, A.A. and Doğu, Y. (2018). Flame radius effects on a sequential ignition engine characteristics. International Journal of Automotive Engineering and Technologies, 7, 29–37.
  • Yilmaz, I. (2019). Computer aided energy and exergy analysis in compression ignition engines. International Journal of Advances in Engineering and Pure Sciences, 31, 201–207.
  • Kim, H., Yoon, S., Xie, X.B., Lai, M.C., Quelhas, S., Boyd, R., Kumar, N. and Moran, C. (2005). Effects of injection timings and intake port flow control on the in-cylinder wetted fuel footprints during PFI engine startup process. SAE Technical Paper, 2005-01-2082, 1-14.
  • Meyer, R., Yilmaz, E. and Heywood, J.B. (1998). Liquid fuel flow in the vicinity of the intake valve of a port-injected SI engine. SAE Technical Paper, 982471, 1-21.
  • Nogi, T., Ohyama, Y., Yamauchi, T. and Kuroiwa, H. (1988). Mixture formation of fuel injection systems in gasoline engines. SAE Technical Paper 880558, 97-104.
  • Zhao, F.Q., Yoo, J.H. and Lai, M.C. (1996). Spray targeting inside a production-type intake port of a 4-valve gasoline engine. SAE Technical Paper, 960115, 1-17.
  • Anand, T.N.C. and Ravikrishna, R.V. (2012). Modelling of mixture preparation in a small engine with port fuel injection. Progress in Computational Fluid Dynamics An International Journal, 12, 375-388.
  • Kutlar, O.A. (1999). A new method to decrease the fuel consumption at part load conditions of four stroke Otto cycle (Rochas) engine—skip cycle engine. PhD thesis, Istanbul Technical University, Institute of Science and Technology, Turkey.
  • Tekeli, Ö. (2013). Designing and production ignition and injection units of a gasoline engine with skip cycle. MsC thesis, İstanbul Technical University, Institute of Science and Technology, Turkey.
  • Cheng, C.O., Cheng, W.K., Heywood, J.B., Maroteaux, D. and Collings, N. (1991). Intake port phenomena in a spark-ignition engine at part load. SAE Technical Paper, 912401, 1-13.
  • Harrington, J.A. and Shishu, R.C. (1973). A single-cylinder engine study of the effects of fuel type, fuel stoichiometry, and hydrogen-to-carbon ratio on CO, NO, and HC exhaust emissions. SAE Technical Paper, 730476, 1-8.
Year 2021, Volume: 5 Issue: 2, 157 - 165, 30.06.2021
https://doi.org/10.30939/ijastech..910542

Abstract

Project Number

39596

References

  • Heywood, J.B. (1988). Internal combustion engine fundamentals. McGraw-Hill, Newyork.
  • Pulkrabek, W. (1997). Engineering fundamentals of the internal combustion engine. Prentice-Hall, New Jersey.
  • Nakao, Y., Uchiyama, Y., Hisano, A., Saitou, M. and Sobakiri, K. (2018). Effects of port injection specifications on air-fuel ratio and emission behavior under transient operation. SAE Technical Paper, 2018-32-0012, 1-14.
  • Costanzo, V.S. and Heywood, J.B. (2005). Mixture preparation mechanisms in a port fuel injected engine. SAE Technical Paper, 2005-01-2080, 1-15.
  • Balki, M.K., Cavus, V., Duran, İ.U., Tuna, R. and Sayin, C. (2018). Experimental study and prediction of performance and emission in an SI engine using alternative fuel with artificial neural network. International Journal of Automotive Engineering and Technologies, 7, 58–64.
  • Yontar, A.A. and Doğu, Y. (2018). Flame radius effects on a sequential ignition engine characteristics. International Journal of Automotive Engineering and Technologies, 7, 29–37.
  • Yilmaz, I. (2019). Computer aided energy and exergy analysis in compression ignition engines. International Journal of Advances in Engineering and Pure Sciences, 31, 201–207.
  • Kim, H., Yoon, S., Xie, X.B., Lai, M.C., Quelhas, S., Boyd, R., Kumar, N. and Moran, C. (2005). Effects of injection timings and intake port flow control on the in-cylinder wetted fuel footprints during PFI engine startup process. SAE Technical Paper, 2005-01-2082, 1-14.
  • Meyer, R., Yilmaz, E. and Heywood, J.B. (1998). Liquid fuel flow in the vicinity of the intake valve of a port-injected SI engine. SAE Technical Paper, 982471, 1-21.
  • Nogi, T., Ohyama, Y., Yamauchi, T. and Kuroiwa, H. (1988). Mixture formation of fuel injection systems in gasoline engines. SAE Technical Paper 880558, 97-104.
  • Zhao, F.Q., Yoo, J.H. and Lai, M.C. (1996). Spray targeting inside a production-type intake port of a 4-valve gasoline engine. SAE Technical Paper, 960115, 1-17.
  • Anand, T.N.C. and Ravikrishna, R.V. (2012). Modelling of mixture preparation in a small engine with port fuel injection. Progress in Computational Fluid Dynamics An International Journal, 12, 375-388.
  • Kutlar, O.A. (1999). A new method to decrease the fuel consumption at part load conditions of four stroke Otto cycle (Rochas) engine—skip cycle engine. PhD thesis, Istanbul Technical University, Institute of Science and Technology, Turkey.
  • Tekeli, Ö. (2013). Designing and production ignition and injection units of a gasoline engine with skip cycle. MsC thesis, İstanbul Technical University, Institute of Science and Technology, Turkey.
  • Cheng, C.O., Cheng, W.K., Heywood, J.B., Maroteaux, D. and Collings, N. (1991). Intake port phenomena in a spark-ignition engine at part load. SAE Technical Paper, 912401, 1-13.
  • Harrington, J.A. and Shishu, R.C. (1973). A single-cylinder engine study of the effects of fuel type, fuel stoichiometry, and hydrogen-to-carbon ratio on CO, NO, and HC exhaust emissions. SAE Technical Paper, 730476, 1-8.
There are 16 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Articles
Authors

Abdurrahman Demirci 0000-0002-2569-5174

Hüseyin Doğan 0000-0002-9445-3697

Ömer Cihan 0000-0001-8103-3063

Akın Kutlar 0000-0002-4795-3541

Project Number 39596
Publication Date June 30, 2021
Submission Date April 6, 2021
Acceptance Date April 26, 2021
Published in Issue Year 2021 Volume: 5 Issue: 2

Cite

APA Demirci, A., Doğan, H., Cihan, Ö., Kutlar, A. (2021). The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine. International Journal of Automotive Science And Technology, 5(2), 157-165. https://doi.org/10.30939/ijastech..910542
AMA Demirci A, Doğan H, Cihan Ö, Kutlar A. The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine. IJASTECH. June 2021;5(2):157-165. doi:10.30939/ijastech.910542
Chicago Demirci, Abdurrahman, Hüseyin Doğan, Ömer Cihan, and Akın Kutlar. “The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine”. International Journal of Automotive Science And Technology 5, no. 2 (June 2021): 157-65. https://doi.org/10.30939/ijastech. 910542.
EndNote Demirci A, Doğan H, Cihan Ö, Kutlar A (June 1, 2021) The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine. International Journal of Automotive Science And Technology 5 2 157–165.
IEEE A. Demirci, H. Doğan, Ö. Cihan, and A. Kutlar, “The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine”, IJASTECH, vol. 5, no. 2, pp. 157–165, 2021, doi: 10.30939/ijastech..910542.
ISNAD Demirci, Abdurrahman et al. “The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine”. International Journal of Automotive Science And Technology 5/2 (June 2021), 157-165. https://doi.org/10.30939/ijastech. 910542.
JAMA Demirci A, Doğan H, Cihan Ö, Kutlar A. The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine. IJASTECH. 2021;5:157–165.
MLA Demirci, Abdurrahman et al. “The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine”. International Journal of Automotive Science And Technology, vol. 5, no. 2, 2021, pp. 157-65, doi:10.30939/ijastech. 910542.
Vancouver Demirci A, Doğan H, Cihan Ö, Kutlar A. The Effect of Injection Parameters on Fuel Consumption and Emissions in A PFI Small Spark Ignition Engine. IJASTECH. 2021;5(2):157-65.


International Journal of Automotive Science and Technology (IJASTECH) is published by Society of Automotive Engineers Turkey

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