A Smart Solution for Fair Value Compensation (FVC) in EV-Batteries Based Mobile Microgrid

R. Yaqub, A. Tariq, Yu Cao
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引用次数: 3

Abstract

Discharging large scale of Electric Vehicle (EV) batteries when power demand is high, and charging them back when the peak is over, is relatively a new area in smart grid energy management. An Independent System Operator (ISO) will coordinate, control and monitor such operation. Since the battery lifespan is a function of number of cycles the battery is charged or discharged, the EV driver, who agrees to sign up for such a program, will need to learn about the number of cycles his EV battery is charged and discharged by the ISO to discover if incentive offered by the ISO is a fair value in contrast to the depreciation of the EV battery so caused. This paper presents a smart solution for FAIR VALUE COMPENSATION (FVC) in EV-batteries based mobile micro grid. The proposed architecture consists of three key functional elements: i.e.: a Cycle Counter, that will count the number of cycles the battery is charged and discharged. A Computation Logic, that will compile and present real time battery depreciation and compute fair value the EV owner deserves, decision parameters intended to help EV driver make educated decision.
基于电动汽车电池的移动微电网公允价值补偿(FVC)的智能解决方案
在电力需求高的时候对电动汽车电池进行大规模放电,在用电高峰过后再对其进行充电,是智能电网能源管理的一个相对较新的领域。独立系统操作员(ISO)将协调、控制和监督此类操作。由于电池寿命是电池充电或放电的循环次数的函数,同意参加此类计划的电动汽车司机需要了解ISO对其电动汽车电池充电和放电的循环次数,以发现ISO提供的激励与由此造成的电动汽车电池贬值相比是否公允。提出了一种基于电动汽车电池的移动微电网公平补偿(FVC)的智能解决方案。提出的架构包括三个关键的功能元素:即:一个循环计数器,它将计算电池充电和放电的循环次数。计算逻辑(Computation Logic),实时编译并呈现电池折旧,计算电动汽车车主应得的公允价值、决策参数,帮助电动汽车驾驶员做出明智的决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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