A New Fuel-Injection Mechatronic Control Method for Direct-Injection Internal Combustion Engines

1. Achleitner E., Bcker H., Funaioli A. (2007), Direct injection systems for otto engines., SAE Technical Paper, 2007-01-1416.10.4271/2007-01-1416Search in Google Scholar

2. Berndorfer A., Breuer S., Piock W., Bacho P. (2013), Diffusion Combustion Phenomena in GDi Engines caused by Injection Process, SAE Technical Paper, 2013-01-0261.10.4271/2013-01-0261Search in Google Scholar

3. Bosch R. (2014), Automotive Electrics and Automotive Electronics, Springer Vieweg, 5th Edition, Springer, Germany,Search in Google Scholar

4. Boudy F., Seers P. (2009), Impact of physical properties of bio-diesel on the injection process in a common-rail direct injection system, Energy Conversion and Management, 50(12), 2905-2912.10.1016/j.enconman.2009.07.005Search in Google Scholar

5. Chatlatanagulchai W., Yaovaja K., Rhienprayoon S., Wannatong K. (2010), Gain-scheduling integrator-augmented sliding-mode control of common-rail pressure in dieseldual-fuel engine, SAE Technical Paper, 2010-01-1573.10.4271/2010-01-1573Search in Google Scholar

6. Chen H., Gong X., Liu Q. F., Hu Y. F. (2014), Triple-step method to design nonlinear controller for rail pressure of gasoline direct injection engines, IET Control Theory & Applications, 8(11), 948-959.10.1049/iet-cta.2013.0476Search in Google Scholar

7. Chladny R.R., Koch C.R., (2008), Flatness-based tracking of an electromechanical variable valve timing actuator with disturbance observer feedforward compensation, IEEE Transactions on Control Systems Technology, 16(4), 652 – 663.Search in Google Scholar

8. Como M., Savaresi S.M., Scattolini R., Comignaghi E., Sofia M., Palma A., Eduardo Sepe E. (2008), Modelling, parameter identification and dynamics analysis of a common rail injection system for gasoline engines, Proceedings of the 17th IFAC World Congress, 8481-8486, Seoul, Korea.10.3182/20080706-5-KR-1001.01434Search in Google Scholar

9. Gaeta A., Fiengo G., Palladino A., Giglio V. (2009), A control oriented model of a common-rail system for gasoline direct injection engine, Proceedings of the 28th Chinese Control Conference, 6614-6619, Shanghai, China.10.1109/CDC.2009.5400211Search in Google Scholar

10. Gaeta A., Montanaro U., Fiengo G., Palladino A & Giglio V. (2012), A model-based gain scheduling approach for controlling the common-rail system for GDI engines, International Journal of Control, 85(4), 419-436.10.1080/00207179.2012.654824Search in Google Scholar

11. Gaeta, A., Montanaro, U., Giglio, V. (2011), Model-based Control of the AFR for GDI Engines via Advanced Co-simulation: An Approach to Reduce the Development Cycle of Engine Control Systems, Journal of Dynamic Systems, Measurement, and Control, 133, 061006 (1-17).10.1115/1.4004067Search in Google Scholar

12. Giorgetti N., Ripaccioli G., Bemporad A., Kolmanovsky I., and Hrovat D. (2006), Hybrid model predictive control of direct injection stratified charge engines, IEEE/ASME Transactions on Mechatronics, 11(5), 499-506.10.1109/TMECH.2006.882979Search in Google Scholar

13. Gupta, V.K., Zhang Z., Sun Z. (2011), Modeling and control of a novel pressure regulation mechanism for common rail fuel injection systems, Applied Mathematical Modelling, 35(7), 3473-3483.10.1016/j.apm.2011.01.008Search in Google Scholar

14. Hoffmann G., Befrui B., Berndorfer A., Piock W. and Varble D. (2014), Varble Fuel System Pressure Increase for Enhanced Performance of GDi Multi Hole Injection Systems, Delphi Automotive Published 04/01/2014 Copyright © 2014 SAE International J. Engines.Search in Google Scholar

15. Husted H., Spegar T., Spakowski J. (2014), The Effects of GDi Fuel Pressure on Fuel Economy, SAE Technical Paper, 2014-01-1438.10.4271/2014-01-1438Search in Google Scholar

16. Jiangjian A., Gao Xiyan B., Yao Chunde C. (2006), An Experimental Study on Fuel Injection System and Emission of a Small GDI Engine, Proceedings of the 2nd IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications, 1-6.10.1109/MESA.2006.296988Search in Google Scholar

17. Lino P., Maione B., Rizzo A. (2007), Nonlinear modelling and control of a common rail injection system for diesel engines, Applied Mathematical Modelling, 31(9), 1770-1784.10.1016/j.apm.2006.06.001Search in Google Scholar

18. Montanaro U., Gaeta A., Giglio V. (2011), An MRAC approach for tracking and ripple attenuation of the common rail pressure for GDI engines, Proceedings of the 18th IFAC World Congress, 4173–4180, Milano, Italy.10.3182/20110828-6-IT-1002.02843Search in Google Scholar

19. Ra Y., Loeper, P., Andrie, M., Krieger, R., David E. Foster D., Reitz R. and Durrett R. (2012), Gasoline DICI Engine Operation in the LTC Regime Using Triple-Pulse Injection, SAE Int. J. Engines, 5(3), 1109-1132.Search in Google Scholar

20. Sellnau M., Sinnamon J., Hoyer K., Husted H. (2012), Full-Time Gasoline Direct-Injection Compression Ignition (GDCI) for High Efficiency and Low NOx and PM, SAE Int. J. Engines, 5(2), 300-314.Search in Google Scholar

21. Sellnau M., Sinnamon J., Hoyer K., Kim, J., Cavotta M. and Harry Husted H. (2013), Part-Load Operation of Gasoline Direct-Injection Compression Ignition (GDCI) Engine, SAE Technical Paper, 2013-01-0272.10.4271/2013-01-0272Search in Google Scholar

22. Sun Z-Y., Zhao J., ShiLeonid Y. and Ma G. (2015), Numerical investigation on transient flow and cavitation characteristic within nozzle during the oil drainage process for a high-pressure common-rail DI diesel engine, Energy Conversion and Management, 98, 507-517.10.1016/j.enconman.2015.04.001Search in Google Scholar

23. Tang H.J., Weng L., Dong Z.Y., Yan R. (2009), Adaptive and learning control for SI engine model with uncertainties, IEEE/ASME Transactions on Mechatronics, 14, 93-104.10.1109/TMECH.2008.2004806Search in Google Scholar

24. Wen-Chang T., Peng-Cheng Y., (2011), Design of the Electrical Drive for the High-Pressure GDI Injector in a 500cc Motorbike Engine, International Journal of Engineering and Industries, 2(1), 70-83.Search in Google Scholar

25. Yan F., Wang J. (2011), Common rail injection system iteractive learning control based parameter calibration for accurate fuel injection quantity control, International Journal of Automotive Technology, 12(2), 149-157.10.1007/s12239-011-0019-7Search in Google Scholar

26. Zhao H. (2016) Advanced Direct Injection Combustion Engine Technologies and Development, Elsevier, Amsterdam.Search in Google Scholar

eISSN:: 2300-5319
Language:: English

Publication timeframe:: 4 times per year
Journal Subjects:: Engineering, Electrical Engineering, Electronics, Mechanical Engineering, Mechanics, Bioengineering and Biomedical Engineering, Biomechanics, Civil Engineering, Environmental Engineering

Journal RSS Feed

A New Fuel-Injection Mechatronic Control Method for Direct-Injection Internal Combustion Engines

Published Online: Jan 03, 2019

Page range: 276 - 280

Received: Jun 06, 2017

Accepted: Dec 11, 2018

DOI: https://doi.org/10.2478/ama-2018-0042

KeywordsDirect Injection, Internal Combustion Engine, Fuel Injection, Injection Control System

© 2018 Józef Tutaj et al., published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Keywords
Direct Injection, Internal Combustion Engine, Fuel Injection, Injection Control System