重庆理工大学学报(自然科学) ›› 2023, Vol. 37 ›› Issue (2): 68-76.doi: 10.3969/j.issn.1674-8425(z).2023.02.008

• “新能源汽车能量管理技术研究”专栏 • 上一篇    下一篇

轮毂驱动电动汽车再生制动能量分配策略研究

许 洋,周 奎,杨亚会,杨 倩,付勇智   

  1. 湖北汽车工业学院,湖北 十堰 442002
  • 出版日期:2023-03-21 发布日期:2023-03-21
  • 作者简介:许洋,男,硕士,主要从事智能网联汽车方面的研究,Email:1173358818@qq.com;通讯作者 周奎,男,硕士,讲 师,主要从事智能驾驶方面的研究,Email:44727726@qq.com。

Research on the regenerative braking energy distribution strategy of hub driven electric vehicles

  • Online:2023-03-21 Published:2023-03-21

摘要: 以四轮毂驱动电动汽车制动反馈控制策略为研究内容,以制动稳定时电机制动参 与最大程限为目标,考虑防抱死制动系统与电机制动的协调控制对再生制动的影响。依据理想 制动力分配 I曲线,确定前后轴制动力分配限值控制线,设计出依照电动机功率分配两桥制动 力矩,确保单轴上反馈制动系统介入优先性和参与最大化的优化分配策略。基于 Matlab/Simu link搭建能量反馈控制模型,在 UDDS工况中,对再生制动的可行性进行分析和评价。仿真数 据显示,单次运行工况中,采用优化控制策略回收能量 0.126kW·h,比传统定比例策略高 77%。相比普通定比例控制和无再生制动功能的控制方案,采用提出的控制策略使得 UDDS 循环工况下的能量消耗分别减少 1.99%和 7.30%,同时,节能效果为 7.29%,车辆进行再生制 动过程中冲击度峰值仅为 1.72m·s-3 ,制动舒适性良好。

关键词: 轮毂驱动, 电动汽车, 再生制动, 控制策略, 能量回收

Abstract: With the maximum range of motor braking participation during braking stability as the target, this paper uses a braking feedback control strategy of four-wheel hub driven electric vehicles as the research content, and considers the influence of coordinated control of the anti-lock braking system and motor braking on the regenerative braking. Based on the ideal braking force distribution I curve, the front and rear axle braking force distribution limit control line is determined, and a braking torque of two bridges is designed according to the motor power, ensuring an optimal distribution strategy of intervention priority and maximum participation of the feedback braking system on a single axle. An energy feedback control model based on Matlab/Simulink is constructed to analyse and evaluate the feasibility of regenerative braking under UDDS operating conditions. The simulation data show that, under a single operating condition, 0.126 kW·h of energy is recovered by using the optimised control strategy, which is 7.7% higher than that in the conventional fixed-proportional strategy. Compared with the ordinary fixed-proportional control and the control scheme without regenerative braking, the proposed control strategy reduces energy consumption by 1.99% and 7.30% respectively under the UDDS cycle conditions, and the energy saving effect is 7.29%. The peak value of impact during vehicle regenerative braking is only 1.72 m·s-3, resulting in good braking comfort.

中图分类号: 

  • U463.5