智能家居电动汽车充电采用数字化平台

IF 5.4 Q2 ENERGY & FUELS
Endre Bjørndal , Mette Bjørndal , Elisabet Kjerstad Bøe , Jacob Dalton , Mario Guajardo
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引用次数: 1

摘要

随着电动汽车的普及,了解家庭充电技术对电网运营和用户预算的影响很重要。我们进行了一项实证研究,分析了运营数字平台的能源聚合商在3687个连续小时内收集的438辆电动汽车的数据。我们首先开发了一个优化模型,以最小成本计算数据集中所有电动汽车的最佳充电时间表。然后,我们将实现与该最优解决方案进行了比较,区分了使用数字平台智能充电功能的住户和不使用该功能的住户。我们的研究结果表明,智能充电行为有助于获得更好的结果,并接近最优解决方案。非用户往往在插入电动汽车后立即开始充电,通常是在消费高峰期。相比之下,智能充电策略通常会将充电时间表转移到消耗更便宜、电网不那么拥堵的时间,从而提高负载系数和降低功率损耗。这些结果突出了能源聚合商和数字平台在协调用户降低能源消费成本和提高能源消费效率方面的积极作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Smart home charging of electric vehicles using a digital platform

Smart home charging of electric vehicles using a digital platform

As the penetration of electric vehicles (EVs) grows, it is important to understand the implications of home charging technologies for grid operations and for the budget of users. We conduct an empirical study analyzing data on 438 EVs over a period of 3,687 consecutive hours, collected by an energy aggregator which operates a digital platform. We first develop an optimization model to compute an optimal schedule of charging for all EVs in the dataset at minimum cost. Then, we compare the realizations against this optimal solution, distinguishing householders who use a smart charging functionality of the digital platform from those who do not use it. Our findings indicate that the smart charging behaviour conduces to better results, and close to the optimal solution. The non-users tend to start charging as soon as they plug-in their EVs, often at peak consumption times. In contrast, the smart charging strategy usually shifts the charging schedules towards times where the consumption is cheaper and the grid is less congested, facilitating a higher load factor and lower power losses. These results highlight the positive role of energy aggregators and digital platforms in coordinating users to lower the cost and enhance efficiency of energy consumption.

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来源期刊
Smart Energy
Smart Energy Engineering-Mechanical Engineering
CiteScore
9.20
自引率
0.00%
发文量
29
审稿时长
73 days
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