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MODELING AND IMPLEMENTATION OF SPEED GOVERNOR FOR THE HYBRID ELECTRIC VEHICLE ENGINE 被引量:1

MODELING AND IMPLEMENTATION OF SPEED GOVERNOR FOR THE HYBRID ELECTRIC VEHICLE ENGINE
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摘要 A speed control analysis for an in-line gasoline fueled internal combustion (IC) engine is presented for the purpose of alleviation of high frequency oscillations in engine revolutions. A dynamic cylinder-by-cylinder model is proposed, base on slider-crank mechanism, which is extended to develop a digital governor providing a high fidelity estimation of rotary speed oscillation for hybrid vehicle engines. A modified PID controller that P and I gain is placed in feedback path is also described for hybrid electric vehicle (HEV) engine speed regulation, By comparison between measured and estimated signals, it is demonstrated that a good agreement has been achieved and the governor behaves an excellent damping speed ripple. A speed control analysis for an in-line gasoline fueled internal combustion (IC) engine is presented for the purpose of alleviation of high frequency oscillations in engine revolutions. A dynamic cylinder-by-cylinder model is proposed, base on slider-crank mechanism, which is extended to develop a digital governor providing a high fidelity estimation of rotary speed oscillation for hybrid vehicle engines. A modified PID controller that P and I gain is placed in feedback path is also described for hybrid electric vehicle (HEV) engine speed regulation, By comparison between measured and estimated signals, it is demonstrated that a good agreement has been achieved and the governor behaves an excellent damping speed ripple.
作者 Feng Qishan Zhang Jianwu Yin Chengliang
机构地区 School of Mechanical Engineering
出处 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2005年第4期603-608,共6页 中国机械工程学报(英文版)
基金 This project is supported by National Hi-tech Research and Development Program of China(863 Program, No.2001AA501211).
关键词 Digital speed governor Engine dynamic model Slider-crank mechanism Hybrid electric vehicle (HEV) Digital speed governor Engine dynamic model Slider-crank mechanism Hybrid electric vehicle (HEV)
分类号 U469.7 [机械工程—车辆工程]
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参考文献16

  • 1Matsuo I, Miyamoto T, Maeda H. The Nissan hybrid vehicle, SAE Paper 2000-01-1568, 2000.
  • 2Caraceni C G, Barbiero R. Hybrid power unit development for Fiat Multipla vehicle. SAE Paper 981124. 1998.
  • 3Shim D K, Park J H, Khargonekar PP, et al. Reducing automotive engine speed fluctuation at idle. IEEE Transactions on Control Systems Technology, 1996, 4(4): 404-410.
  • 4Powell B K, Cook j A. Nonlinear low frequency phenomenological engine modeling and analysis. In: Proceeding of American Control.Conference, 1987:332-340.
  • 5Mruthunjaya U, Dhariwal H C. Investigation of control of speed of diesel engines using PID governor. SAE Paper 2000-01-0264, 2000.
  • 6Kim D E, Park J H. Neural network control for reducing engine speed fluctuation at idle. IEEE Transactions on Control Systems Technology,1999, 4(4): 629-634.
  • 7Scillieri J J, Buckland J, Freudenberg J S. Use of feedforward in idle speed control for a direct injection spark ignition engine during lean bum.In: Proceedings of the American Control Conference, Anchorage, AK,May 8-10. 2002:1 419-1 424.
  • 8Singh N, Vig R, Sharma J K. ICE idle speed control using fuzzy idle. SAE Paper 2002-01-1151, 2002.
  • 9Zweiri Y H, Whidbome J F, Seneviratne L D. A mathematical transient model for the dynamics of a single cylinder diesel engine. In: International Conference on Simulation, 1998:145-151.
  • 10Davis R I, Lorenz R D. Engine torque ripple cancellation with an integrated starter alternator in a hybrid electric vehicle implementation and control. In: Proceeding of IEEE IAS Annual Meeting, Pittsburgh, Oct 11-19,2002.

同被引文献9

  • 1何继爱,王惠琴.永磁同步电机空间矢量控制系统的仿真[J].电力系统及其自动化学报,2005,17(6):14-16. 被引量:26
  • 2肖清,王庆丰,张彦廷,付强.液压挖掘机混合动力系统建模及控制策略研究[J].浙江大学学报(工学版),2007,41(3):480-483. 被引量:33
  • 3KAGOSHIMA M, SORA T, KOMIYAMA M. Development of hybrid power train control system for excavator [C]//JSAE Annual Congress. Japan:[s. n. ],2003:1 - 6.
  • 4NANJO T, IMANISHI E, KAGOSHIMA M. Power simulation for energy saving in hybrid excavator[J]. JSAE Transaction, 2004, 47 (44) : 101 - 106.
  • 5SCHOUTEN N J, SALMAN M A, KHEIR N A. Fuzzy logic control for parallel hybrid vehicles[J]. IEEE Transactions on Control Systems Technology, 2002, 10(3) : 460 - 468.
  • 6POURSAMAD A,MONTAZERI M. Design of geneticfuzzy control strategy for parallel hybrid electric vehicles[J]. Control Engineering Practice, 2008, 16 (7): 861 - 873.
  • 7PLETT G L. Extended Kalman filtering for battery management systems of LiPB-based HEV battery packs [J]. Journal of Power Source, 2004, 134 ( 2 ): 262 -276.
  • 8VASEBI A, PARTOVIBAKHSH M, BATHAEE S M T. A novel combined battery model for state-obcharge estimation in lead-acid batteries based on extended Kalman filter for hybrid electric vehicle applications[J]. Journal of Power Source, 2007,174 : 30 - 40.
  • 9张兴,张崇巍.PWM可逆变流器空间电压矢量控制技术的研究[J].中国电机工程学报,2001,21(10):102-105. 被引量:129

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Chinese Journal of Mechanical Engineering
2005年 第4期

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