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Simulation Analysis on Controllability of Hydraulic Electrical Energy Regenerative Semi-Active Suspension
Technical Paper
2016-01-0443
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A vehicular hydraulic electrical energy regenerative semi-active suspension(HEERSS) was presented, and its working principle and performance were analyzed. Firstly, configuration and working principle of the HEERSS were described; Secondly, kinetic equation of HEERSS was deduced, and a skyhook controller was designed for HEERSS. The traditional skyhook control strategy should be changed for the characteristic of HEERSS, because the damping force during extension stroke could be controlled, but not in compression stroke. Thirdly, the performance of HEERSS was compared with passive suspension(PS), traditional semi-active suspension(TSS). The simulation results indicated that the performance of HEERSS would be compromise between TSS and PS, but the HEERSS could harvest vibration energy which was advanced than TSS and PS.
Authors
Citation
Zhang, H., Li, G., Wang, Y., Gu, Y. et al., "Simulation Analysis on Controllability of Hydraulic Electrical Energy Regenerative Semi-Active Suspension," SAE Technical Paper 2016-01-0443, 2016, https://doi.org/10.4271/2016-01-0443.Also In
References
- Okada Y. , Harada H. Active and regenerative control of electrodynamic vibration damper [C] Proceedings of the 1995 ASME Design Engineering Technical 1995 83 C 595 602
- Okada Y. , Kim S. , Ozawa K. Energy Regenerative and Active Control Suspension [C] Proceedings of the ASME Design Engineering Technical Conference 2003 5 2003 2135 2142
- Okada Y. , Ozawa K. Energy regenerative and active control of electro-dynamic vibration damper [C] IUTAM Symposium on Vibration Control of Nonlinear Mechanisms and Structures Munich, Germany 2005 233 242
- Suda Y. , Shiba T. New Hybrid Suspension System with Active Control and Energy Regeneration [J] Vehicle System Dynamics 1996 25 641 654
- Suda Y. , Nakadai S. , Nakano K. Study on active control using regenerated vibration energy [J] Japan Society of Mechanical Engineers 1997 63 613 3038 3044
- Nakano K. , Suda Y. , Nakadai S. Self-powered active control applied to a truck cab suspension [J] The Japan Society of Mechanical Engineers 1999 20 4 227 232
- Nakano K. , Suda Y. , Nakadai S. Self-powered active vibration control using continuous control input [J] The Japan Society of Mechanical Engineers 2000 43 3 726 731
- Zuo Lei , Scully Brian , Shestani Jurgen and Zhou Yu Design and characterization of an electromagnetic energy harvester for vehicle suspensions [J] Smart Material and Structures 2010 19 4 045003
- Li Zhongjie , Zuo Lei , George Luhrs et al. Electromagnetic Energy-Harvesting Shock Absorbers: Design, Modeling and Road Tests [J] IEEE Transactions on Vehicular Technology 2013 62 3 1065 1074
- Li Zhongjie , Zuo Lei , Kuang Jian et al. Energy-harvesting shock absorber with a mechanical motion rectifier [J] Smart Materials and structures 2012 22 2 1 10
- Liu Yilun , Changlin Chi , Zuo Lei Semi-active controller design for vibration suppression and energy harvesting via LMI approach [C] Active and Passive Smart Structures and Integrated Systems 2014 2014 9057 905733(1) 905733(9)
- Liu Yilun , Zuo Lei Energy-flow-driven(EFD) semi-active suspension control [C] 2014 American Control Conference 2014 2120 2125
- Yu Changmiao , Wang Weihua , Wang Qingnian Design of Electromagnetic Energy Regenerative Suspension System and Analysis of Energy Conservation[J] Automobile Technology 2010 2 21 24
- Yu Changmiao , Wang Weihua , Wang Qingnian Damping characteristic and its influence factors in nergy regenerative suspension[J] Journal of Jilin University (Engineering and Technology Edition) 2010 40 6 1482 1485
- Wang Qingnian , Liu Songshan , Wang Weihua et al. Structure design and parameter matching of ball-screw regenerative damper[J] Journal of Jilin University (Engineering and Technology Edition) 2010 42 5 1100 1106
- Gysen Bart L.J. , Paulides Johannes J.H. et al. Design Aspects of an Active Electromagnetic Suspension System for Automotive Applications [J] IEEE Transactions on Industry Applications 2009 45 5 1589 1597
- Gysen Bart L.J. , Paulides Johannes J.H. et al. Active Electromagnetic Suspension System for Improved Vehicle Dynamics[J] IEEE Transactions on Vehicular Technology 2010 59 3 1156 1163
- Gysen Bart L.J. , Paulides Johannes J.H. et al. Efficiency of a Regenerative Direct-Drive Electromagnetic Active Suspension [J] IEEE Transactions on Vehicular Technology 2011 60 4 1384 1392
- Chen Shian , He Ren , Lu Senlin A Study on the Simulation of Energy Reclaiming Suspension and Performance Evaluation[J] Automotive Thechnology 2006 28 2 167 171
- Chen Shian , He Ren , Lu Senlin New Reclaiming Energy Suspension and Its Working Principle[J] CHINESE JOURNAL OF MECHANICAL ENGINEERING 2007 43 11 177 182
- Chen Shian , He Ren , Lu Senlin Evaluating system of reclaiming energy suspension comprehensive performance [J] Transactions of the Chinese Society for Agricultural 2006 37 7 14 18
- Cao Min , Liu Wei , Yu Fan Development on Electromotor Actuator for Active Suspension of Vehicle[J] CHINESE JOURNAL OF MECHANICAL ENGINEERING 2008 44 11 224 228
- Huang Kun , Zhang Yongchao , Yu Fan et al. Coordinate Optimization for Synthetical Performance of Electrical Energy-Regenerative Active Suspension[J] Journal of Shanghai Jiaotong University 2009 43 2 226 230
- Zhang Yongchao , Zheng Xuechun , Yu Fan et al. Theoretical and Experimental Study on Electrical Energy-Regenerative Suspension[J] Automotive Engineering 2008 30 1 48 52
- Yu Fan , Zhang Yongchao Technology of Regenerative Vehicle Active Suspensions[J] Transactions of the Chinese Society for Agricultural 2010 41 1 1 5
- Zhang Yongchao Study on robust control for vehicle active electromagnetic suspension[D] Shanghai Shanghai Jiaotong University 2012