Impedance-based simulation model of Carbon Nano-Onions ultracapacitors for e-bike with compact energy storage system

2012 IEEE Vehicle Power and Propulsion Conference Pub Date : 2012-10-01 DOI:10.1109/VPPC.2012.6422623
F. Parigi, Y. Gao, T. Gachovska, J. Hudgins, D. Patterson, Y. Lu
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引用次数: 1

Abstract

A novel electrified bicycle using only ultracapacitors as the primary energy storage components are described. A specific buck converter to charge the e-bike in less than two minutes has been designed and simulated. The simulation of the associated fast-charging system shows that this technology is feasible for the intended application. Novel ultracapacitors, made from Carbon Nano-Onion materials, have been produced and the impedance spectra were measured. The data were fitted to an equivalent electrical model and the parameters for the ultracapacitors were determined. It is possible to increase the total viable e-bike distance by 22% by using nanocarbon materials, such as nano-onions, for energy storage.
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具有紧凑型储能系统的电动自行车用碳纳米洋葱超级电容器阻抗仿真模型
介绍了一种仅使用超级电容器作为主要储能元件的新型电动自行车。设计并仿真了一种可在两分钟内完成电动自行车充电的buck变换器。通过对相关快速充电系统的仿真,验证了该技术的可行性。用碳纳米洋葱材料制备了新型超级电容器,并对其阻抗谱进行了测量。将数据拟合到等效电学模型中,并确定了超级电容器的参数。利用纳米洋葱等纳米碳材料储存能量,电动自行车的总行驶距离有可能增加22%。
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2012 IEEE Vehicle Power and Propulsion Conference
2012 IEEE Vehicle Power and Propulsion Conference
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