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Design and Analysis of Power Train of a Series Hybrid Electric Car
Technical Paper
2009-28-0044
ISSN: 0148-7191, e-ISSN: 2688-3627
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Abstract
In the present study, the power train of a series hybrid electric car was designed to meet the specified requirements of a four seater benchmarked passenger car-Wagon R. The 47.7 kW gasoline engine of Wagon R was downsized to 33.4 kW and the induction motor used for traction was rated at 54.5 kW. Ni-MH battery of 54.5 kW peak with 65 Ah was identified to serve as Peak Power Source (PPS).The performance of designed power train of series HEV under various drive cycles (specially designed drive cycle, FTP, US06, UDDS, EUDC2 and HWY) was tested using a developed MATLAB simulation program. The simulation results depicted the Depth of Discharge (DoD) behaviour of the battery during the drive along the tested drive cycles. An average motor efficiency of 83% was observed during the sample drive cycle tested.
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Anandhan, S., Sridhara, S., and Shankapal, S., "Design and Analysis of Power Train of a Series Hybrid Electric Car," SAE Technical Paper 2009-28-0044, 2009, https://doi.org/10.4271/2009-28-0044.Data Sets - Support Documents
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References
- Ehsani M. Rahman K. M. Toliyat H. A. “Propulsion System Design of Electric and Hybrid Vehicles” IEEE Trans, on Ind. Elec. 44 1 19 27 Feb 1997
- German John M. “Hybrid Powered Vehicles” SAE Automotive Technology International 2003 0-7680-1310-0
- Anonymous Fuel Economy, Emission, Cost Details of Hybrid Vehicles available in the Market http://www.fueleconomy.gov/feg/hybrid_sbs.shtml 2007
- Anonymous Fuel Economy, Emission, Cost Details of Hybrid Vehicles available in the Market http://www.allabouthybridcars.com/hybrid-car-history.htm 2007
- Ehsani Mehrdad Gao Yimini Gay sebastin E. Emadi Ali “Modern Electric and Hybrid Electric and Fuel Cell Vehicles- Fundamentals, Theory and Design” CRC press 0-8493-1310-0 2005
- Lin Chan-Chiao Filipi Zoran Wang Yongsheng Louca Loucas et al. Integrated, Feed-forward Hybrid Electrical Vehicle Simulation in Simulink and its Use For Power Management Studies SAE technical paper, 2001-01-1334 2001
- Mahapatra Saurabh Egel Tom et al. Model-Based Design for Hybrid Electric Vehicle Systems SAE technical paper, 2008-01-0085 2008
- Rahman Z. Ehsani M. Butler K. Effect of extended-speed, constant-power operation of electric drives on the design and performance of EV-HEV propulsion system Society of Automotive Engineers (SAE) Journal, Paper No. 2000-01-1557 Warrendale, PA 2003
- Ehsani M. Gao Y. Butler K. Application of electric peaking hybrid (ELPH) propulsion system to a full size passenger car with simulated design verification IEEE Transactions on Vehicular Technology 48 1779 1787 1999
- Tuncay R.N. Usturn O. Gokce C. Yilmaz M. Energy Flow Modeling Method for Simulation of Series Parallel Hybrid Electrical Vehicle Insitute of science and technology 2005
- Anonymous Technical Specifications of Maruti WagonR http://cars.indiaautomobile.com/newCars/manufacturer/Maruti/Wagon_R?gclid=COj7qdmS8ZUCFRU YegodfWNNeQ 23rd Sepetember 2008
- BobBrant Build Your Own Electric Vehicle MGraw-Hill professional 0830642315 1993
- Larminie James Lowry John Electric Vehicle Technology Explained John Wiley & Sons Ltd 0-470-85163-5 2003
- Anonymous Dynamometer Driver's Aid Environmental Protection Agency