Design of High Pressure Fuel Pump Control System for GDI Engine

Aiming at the problems remaining in the gasoline direct injection (GDI) engines such as high pressure fuel pump noise and low dynamic response in high pressure fuel rail, the driving current in the pump spill valve is optimized and a control strategy of pump fuel quantity is designed to reduce the work noise of high pressure oil pump and also to shorten the dynamic response time in high pressure fuel rail. When the throttle opening increases from 20% to 50% and target fuel rail pressure from 6.5 MPa to 9.3 MPa, the dynamic response time is only 4 s. Therefore, it is concluded that the method is feasible, and it provides the reference value for optimization of engine fuel injection control system.

Keywords: GDI engine,  high pressure fuel pump,  spill valve,  control strategy,  bench test

BAI Yun. FAN Liyun. MA Xiuzhen. Et al. Stability study on injection of common rail system based on state matrixes [j]. Chinese Internal Combustion Engine Engineering. 2016. 37 (6): 156-163. (In Chinese)

ZMANG Baofeng. I.I Jinlong.ZHU Junchao.et at. Design of injector intelligent driving module for GDI engine.J]. Journal of Tianjin University of Technology.2017,33(6): 32 - 36. (In Chinese)

ZHOU Zhe, ZHANG Zhendong. YIN Congbo, et at. Control strategy for high pressure common rail diesel engine based on torque model [J]. Automotive Engineering.2017.39(11); 1215 -1251. (In Chinese)

ZHAN Xingrui. SUN Lingling. GAO Weijun. et al. Development and experiment analysis for common rail fuel injection system of single cylinder diesel engin [j]. Modern Vehicle Power.2017(4):23 - 28.58. (In Chinese)

WANG Kejie. Research on model-based calibration of common rail diesel engine[D]. Hangzhou: College of Energy Engineering. Zhejiang University.2016:4 - 9. (In Chinese)

LI Zijing. The control strategy of high pressure common rail diesel engine fuel injection quantity based on demand torque LDJ. Changchun:College of Automotive Engineering. Jilin University. 2016:7-12. (In Chinese)

QI Wanqiang. Research on control strategy of GDI engine[l)]. Changchun:College of Automotive Engineering. Jilin University. 2016:31-40. (In Chinese)

BORETTI A A. WATSON II C. The lean burn direct injection jet ignition gas engine[j]. International Journal of Hydrogen Energy. 2009. 34( 18):7835 - 7841.

WANG Yanjun. Research on two stage gasoline direct injection combustion system[D]. Beijing: Department of Automotive Engineering. Tsinghua University. 2005:32 - 45. (In Chinese)

DRLNG Detlev Schppe. DIPLLNG Stefan Zulch, MARTIN Hardy, et al. Delphi common rail system with direct acting in-jectort [J]. MTZ Worldwide. 2008. 69( 10) :32-38.

WANG II. WANG Y. ZHI L. Model based torque control nnd estimationfor common rail diesel engine [C]//lnternational Conference on Optoelectronics and Image Processing. IEEE, 2010:704-707.

FANG Lihui. Calibrition experiment research on the electronic control 4G94 D4 type gasoline engine[I)]. Harbin:College of Power and Energy Enginnering. Harbin Engineering University. 2010:5- 13. (In Chinese)