A Design of Hybrid Energy Storage System for Electric Vehicles
DOI:
https://doi.org/10.55524/Keywords:
Hybrid energy storage system, Hybrid energy storage system, Battery Supercapacitor, Electric vehicle, Regenerative brakingAbstract
Recently, Electronic Vehicles (EVs) have been attracted substantial responsiveness and so did the advance in battery equipment. Although the battery technology has been significantly advanced, the available batteries do not entirely meet the energy demands of the Electric vehicle power depletion. This latter aspect is very important for urban mobility. Although many EVs are previously available in the market. These topologies of EVs are based on the diverse combination of batteries, fuel cells, super-capacitor, flywheels, and regenerative braking systems, which are used as energy sources and energy storage devices.
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Zhikang Shuai, Chao Shen, Xin Yin, Xuan Liu, John Shen, “Fault analysis of inverter-interfaced distributed generators with different control schemes,” IEEE Transactions on Power Delivery, DOI: 10. 1109/TPWRD. 2017. 2717388. [2] Zhikang Shuai, Yingyun Sun, Z. John Shen, Wei Tian, Chunming Tu, Yan Li, Xin Yin, “Microgrid stability: classification and a review,” Renewable and Sustainable Energy Reviews, vol.58, pp. 167-179, Feb. 2016
N. R. Tummuru, M. K. Mishra, and S. Srinivas, “Dynamic energy management of renewable grid integrated hybrid energy storage system,” IEEE Trans. Ind. Electron., vol. 62, no. 12, pp. 7728-7737, Dec. 2015.
T. Mesbahi, N. Rizoug, F. Khenfri, P. Bartholomeus, and P. Le Moigne, “Dynamical modelling and emulation of Li-ion batteries- supercapacitors hybrid power supply for electric vehicle applications,” IET Electr. Syst. Transp., vol.7, no.2, pp. 161-169, Nov. 2016.
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