量化利用太阳能发电延长电动汽车充电期限的好处

Omid Ardakanian, C. Rosenberg, S. Keshav
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引用次数: 7

摘要

近年来成本的显著降低使太阳能成为当今许多地区具有经济竞争力的能源。鉴于此,以及电动汽车(EV)在大众市场的广泛推广,我们研究了采用现场太阳能发电的公共电动汽车充电站,这些充电站由电网的常规电力提供支持。由于传统电力的碳足迹高于太阳能,充电期限会严重影响充电站可用的太阳能总量,从而影响充电服务的总体碳足迹。在本文中,我们提出了一种方法来量化多少碳足迹可以减少作为一个函数的充电期限通过描述一个性能保证公平的电力分配算法在公共充电站。这使我们能够研究充电期限、电动汽车车主的效用和电动汽车充电的碳足迹之间的三方权衡。我们发现,我们的算法几乎最优地利用了可用的绿色能源,同时仍然保证太阳能充电的性能不低于电网充电。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantifying the benefits of extending electric vehicle charging deadlines with solar generation
Significant cost reduction in recent years has made solar power an economically competitive power source in many regions today. In view of this, and the widespread introduction of electric vehicles (EVs) to the mass market, we study public EV charging stations with on-site solar generation that are backed up by conventional power from the grid. Since the carbon footprint of conventional power is higher than solar power, charging deadlines can critically affect the total solar energy available to charging stations and therefore the overall carbon footprint of the charging service. In this paper, we propose a method to quantify how much carbon footprint can be reduced as a function of the charging deadline by describing a performance-guaranteed fair power allocation algorithm in a public charging station. This enables us to study the three-way tradeoff between the charging deadline, the utility of EV owners, and the carbon footprint of EV charging. We find that our algorithm makes nearly optimal use of available green energy, while still guaranteeing that solar charging performs no worse than grid charging.
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