Study on Braking Force Distribution Based on Fuzzy Control Algorithm
One of the advantages of electric vehicle is its ability to regenerate braking energy compared with conventional motor vehicles.This is able to save the electric energy and extend the drive range of electric vehicle.However,on one hand,regeneration and usage of braking energy with a higher efficiency is still a topic to be studied.On the other hand.allocation of the general braking force between the normal mechanical and electric braking systems in EV seriously affects its safety.In this paper,the braking force distribution during regenerative braking processes of a battery electric bus is studied.Controlled by a fuzzy logic strategy,the regenerative braking energy model is developed,which is embedded in the entire vehicle model.With the theoretical model,the braking force distribution function has been calculated with two factors,vehicle velocity and battery state of charge (SoC).The strategy also takes the comfort requirements of the driver during braking into account.The simulation results in this paper show that in addition to properly distributing the braking force,the regenerative braking energy control strategy can save the energy consumption of the electric bus by 5.5%,3.9% and 6.4% during China city bus driving cycle,New York bus driving cycle and Japenese10-15 mode driving cycle,respectively.
battery electric bus braking force distribution fuzzy logic controller energy consumption
HU Jianyao XU Huawei HE Zhiyuan HUANG Linyi LIU Qunxing
China CEPREI Laboratory The Fifth Research Institute of Ministry of Industry and Information Technology(MIIT)Guangzhou, China
国际会议
重庆
英文
1114-1119
2015-12-19(万方平台首次上网日期,不代表论文的发表时间)