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吉林大学学报(工学版) 2015

并联式液压混合动力系统中蓄能器各主要参数对系统性能的影响

, PP. 420-428

董晗,刘昕晖,王昕,郑博元,梁卫权,王佳怡

Keywords: 流体传动与控制,液压混合动力,制动能量回收,液压蓄能器

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Abstract:

通过对系统中各主要元件进行数学建模、在AMESim软件中搭建了相应的仿真模型，得到一系列不同条件下的仿真曲线，用以研究蓄能器各主要参数对系统性能的影响。为了验证仿真结果的正确性，在一辆基于实车改造的实验台架上，针对上述仿真结果做了相应的实验。对比仿真与实验可以看到:实验结果与仿真结论基本吻合。结果表明:蓄能器的预充气压力和容积大小对系统节能效果影响最明显。制动能量回收率、再利用率与速度成反比关系;预充气压力会对车辆制动距离产生较大影响;而蓄能器容积达到一定数值后，其能量回收率与再利用率的变化不再随容积的增大而发生明显提高。

References

[1]	周翎霄,宁晓斌,谢伟东. 纯电动汽车液压再生制动能量回收系统的研究[J]. 机电工程,2013, 30(6):664-668.Zhou Ling-xiao, Ning Xiao-bin, Xie Wei-dong. Hydraulic regenerative braking system in electrical vehicle[J]. Journal of Mechanical & Electrical Engineering, 2013,30(6):664-668.
[2]	Deppen T O, Alleyne A G, Stelson K A, et al. Optimal energy use in a light weight hydraulic hybrid passenger vehicle[J]. Journal of Dynamic Systems, Measurement, and Control, 2012,134(4): 41009-41011.
[3]	衣鹏,舒涛,宋国辉.并联式液驱混合动力汽车系统建模与节油分析[J]. 佳木斯大学学报:自然科学版,2013,31(4):485-489.Yi Peng, Shu Tao, Song Guo-hui. The modeling and fuel efficiency analysis of parallel hydraulic hybrid vehicles[J]. Journal of Jiamusi University (Natural Science Edition), 2013,31(4):485-489.
[4]	余志生.汽车理论[M].5版.北京:机械工业出版社, 2009.
[5]	马雅丽,黄志坚.蓄能器实用技术[M].北京:化学工业出版社,2007.
[6]	Sun Hui, Jiang Jun-qing. Research on the system configuration and energy control strategy for parallel hydraulic hybrid loader[J]. Automation in Construction, 2010,19(2):213-220.
[7]	李翔晟,陈斗,李晓.液驱混合动力车辆动力源储能元件匹配优化研究[J].中国机械工程,2013, 24(18):2550-2555.Li Xiang-sheng, Chen Dou, Li Xiao. Research on matching optimization of energy storage element of power of hydraulic hybrid vehicle[J].China Mechanical Engineering, 2013,24(18):2550-2555.
[8]	Ramakrishman R, Somashekhar S, Singaperumal M. Theoretical investigations on the effect of system parameters in series hydraulic hybrid system with hydrostatic regenerative braking[J]. Journal of Mechanical Science and Technology, 2012,25(5):1321-1331.
[9]	俞剑波,何仁.混合动力电动汽车混合制动技术分析[J]. 重庆交通大学学报:自然科学版,2013, 32(4):705-711.Yu Jian-bo, He Ren. Hybrid braking technology for hybrid electric vehicle[J]. Journal of Chongqing Jiaotong University (Natural Science), 2013,32(4):705-711.
[10]	Yan Y, Liu G, Chen J. Integrated modeling and optimization of a parallel hydraulic hybrid bus[J]. International Journal of Automotive Technology, 2010,11(1):97-104.
[11]	王昕,姜继海.轮边驱动液压混合动力车辆再生制动控制策略[J]. 吉林大学学报:工学版, 2009,39(6):1544-1549.Wang Xin, Jiang Ji-hai. Regenerative braking control strategy for wheel drive hydraulic hybrid vehicle[J]. Journal of Jilin University (Engineering and Technology Edition), 2009,39(6):1544-1549.
[12]	姜继海.汽车液驱混合动力技术[M].北京:机械工业出版社,2012.
[13]	张庆永.基于液驱混合动力车辆的蓄能器特性研究[J]. 机械科学与技术,2011,30(11):1911-1916.Zhang Qing-yong. Study on the characteristic of hydraulic accumulator based on hydraulic hybrid vehicles[J]. Mechanical Science and Technology for Aerospace Engineering,2011, 30(11):1911-1916.
[14]	任国军,朱凤金.液压混合动力车辆中蓄能器的参数设计研究[J]. 液压与气动,2010(8):12-14.Ren Guo-jun, Zhu Feng-jin. Research of accumulator parameter design for the hydraulic hybrid vehicle[J]. Hydraulic & Pneumatic, 2010 (8):12-14.

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