Empirical Evaluation of V2G Round-trip Efficiency

2020 International Conference on Smart Energy Systems and Technologies (SEST) Pub Date : 2020-09-01 DOI:10.1109/SEST48500.2020.9203459

W. Schram, N. Brinkel, Gilbert Smink, T. van Wijk, W. V. van Sark

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引用次数: 15

Abstract

The business case of vehicle-to-grid (V2G) technology and its potential to provide grid services is heavily dependent on the round-trip efficiency of this technology. Surprisingly, very little empirical research is conducted to determine the V2G round-trip efficiency of electric vehicles currently available in the market, resulting in a wide range of efficiency values used in V2G modelling studies. This study aims to create more insight in the current V2G round-trip efficiency to stimulate that more uniform and realistic efficiency values are used in other studies. A field experiment is executed to measure the round-trip energy efficiency of V2G for different dates, current rates and average state of charge. It was found that the average round-trip efficiency (i.e., combined inverter and battery efficiency) when charging between a state of charge 25% and 75% with 3x16 Ampere was 87.0%(±1%). However, various external factors could influence the measured efficiencies, which had a total range from 79.1% to 87.8%. Charging at lower ambient temperatures and lower current rates had a statistically significant adverse effect on the round-trip efficiency. Efficiency at high and low state of charge was found to be marginally lower than around medium state of charges. Two different electric vehicle + charging station models were tested, one with on-board AC/DC converter, which is a novel V2G setup, and one with external AC/DC converter, rendering no statistically different efficiency values.

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V2G往返效率的实证评价

车辆到电网(V2G)技术的商业案例及其提供电网服务的潜力在很大程度上取决于该技术的往返效率。令人惊讶的是，很少有实证研究来确定目前市场上可用的电动汽车的V2G往返效率，导致在V2G建模研究中使用的效率值范围很广。本研究旨在加深对当前V2G往返效率的了解，从而促进其他研究使用更统一、更真实的效率值。对V2G在不同日期、不同电流和不同平均充电状态下的往返能量效率进行了实测。结果表明，在3 × 16安培电量为25%和75%的状态下充电时，平均往返效率(即逆变器和电池的综合效率)为87.0%(±1%)。然而，各种外部因素会影响测量的效率，其总范围从79.1%到87.8%。在较低的环境温度和较低的电流速率下充电对往返效率有统计学上显著的不利影响。发现高、低电荷状态下的效率略低于中电荷状态下的效率。测试了两种不同的电动汽车+充电站模型，一种是车载AC/DC转换器，这是一种新颖的V2G设置，另一种是外部AC/DC转换器，效率值没有统计学差异。

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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来源期刊

2020 International Conference on Smart Energy Systems and Technologies (SEST)

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