Transactive control mechanism for efficient management of EVs charging in transactive energy environment

2016 North American Power Symposium (NAPS) Pub Date : 2016-09-01 DOI:10.1109/NAPS.2016.7747937

Eric Galvan, P. Mandal, M. Velez-Reyes, S. Kamalasadan

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引用次数: 13

Abstract

This paper introduces a transactive energy (TE) approach through a transactive control (TC) mechanism for efficient electric vehicle (EV)-grid integration and management with the goal of minimizing the charging cost of EVs and mitigating the adverse effects on the grid. Charging EVs can present undesirable effects, e.g., overload components, in the distribution systems. In the proposed TE+TC approach, the distribution system operator (DSO) generates a distribution locational marginal price (DLMP) for the transactive nodes (TNs) which is then sent to each customer's house, assuming that the TN and the customers have local agents. Based on their needs and the received transactive incentive signal (TIS), consumers will determine their EVs charging hours. Upon execution, the consumer sends the information back to the transformer as a transactive feedback signal (TFS). This information allows the DSO to recalculate its TIS at the TN and adjust the new demand pattern accordingly. In order to evaluate the effectiveness of the proposed TE+TC approach, this paper considers a case study of a transformer located at a 6-bus distribution feeder test system.

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能源交互环境下电动汽车充电高效管理的交互控制机制

以降低电动汽车充电成本和减轻对电网的不利影响为目标，通过交易控制机制，提出了一种高效的电动汽车与电网整合与管理的交易能源(TE)方法。给电动汽车充电可能会带来不良影响，例如，配电系统中的过载组件。在提议的TE+TC方法中，分配系统运营商(DSO)为交易节点(TN)生成分配位置边际价格(DLMP)，然后将其发送到每个客户的家中，假设TN和客户都有本地代理。消费者根据自己的需求和接收到的交互激励信号(TIS)来决定自己的电动汽车充电时间。在执行时，使用者将信息作为交互式反馈信号(TFS)发送回变压器。这些信息可以让运输局在TN重新计算其运输需求指数，并相应地调整新的需求模式。为了评估所提出的TE+TC方法的有效性，本文考虑了一个位于6母线配电馈线测试系统的变压器的案例研究。

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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2016 North American Power Symposium (NAPS)

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