在电动汽车中使用超级电容器的经济评估

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Hossein Rezaei, Seyed Ehsan Abdollahi, Seyedreza Abdollahi, Shaahin Filizadeh
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引用次数: 0

摘要

在电动汽车中将超级电容器(UC)与电池混合使用的主要挑战是其不确定的经济可行性,此外还有其复杂性和重量问题,这一点应得到充分解决。因此,本文确定了实现合理经济系统的一般条件,即在特定的系统设计、能源管理策略、车辆类型和驾驶方式下,电池-UC 系统在车辆使用寿命内的平均年成本 (AAC) 低于单电池的年成本。因此,在案例研究车辆中设计了储能系统,并在 UDDS、HWFET 和 US06 驾驶循环下通过动态编程(DP)找到了最佳电流分布。然后,通过经济分析表明,虽然增加 UC 会产生额外成本,但通过改善电池健康状况和延长其使用寿命(最长可达 15 年),可以节省汽车空调费用,这证明了其经济合理性。对于行驶周期长、电流压力大的车辆来说,投资 UC 更为经济可行。最后,在 US06 驾驶周期下的实验装置中实施了 DP 最佳轨迹,以验证所评估的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Economic Evaluation of Using Ultracapacitors in Electric Vehicles
The main challenge of hybridizing ultracapacitors (UCs) with batteries in electric vehicles is their uncertain economic viability, besides their complexity and weight, which should be fully addressed. Therefore, this article determines the general condition for achieving a justified economic system, which is held when the average annual cost (AAC) of a battery‐UC system over a vehicle's useful life is lower than the annual cost of a sole‐battery for a specific system design, energy management strategy, vehicle type, and driving style. As such, the energy storage system is designed in a case study vehicle, and the optimal current distribution is found by dynamic programming (DP) under UDDS, HWFET, and US06 driving cycles. Then, by economic analysis, it is indicated that although adding an UC incurs additional costs, it saves the AAC by improving the battery health and prolonging its lifespan up to a maximum of 15‐year calendar life, which proves its economic justification. Investing in UCs is more economically viable for vehicles with severe driving cycles and high current stress. Finally, the DP optimal trajectory is implemented into an experimental setup under the US06 driving cycle to verify the evaluated strategy.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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