A multi-control vehicle-to-grid charger with bi-directional active and reactive power capabilities for power grid support

Tan Kang Miao; Padmanaban Sanjeevikumar; Yong Jia Ying; Ramachandaramurthy Vigna K.

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A multi-control vehicle-to-grid charger with bi-directional active and reactive power capabilities for power grid support

机译：具有双向有功和无功功率功能的多控制车对网充电器，可支持电网

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This paper proposes a multi-control vehicle-to-grid charger with bi-directional power capability. The proposed charger can perform vehicle battery charging and discharging operations, as well as power grid support such as reactive power compensation, power factor correction, and grid voltage regulation. The performances of the charger controls were examined under various power grid scenarios. Results revealed that the vehicle-to-grid charger attained the highest charger efficiency when operating at unity power factor mode. Nevertheless, vehicle charging at unity power factor introduced a significant grid voltage drop which may violate the grid voltage limits. This problem was solved by using the voltage control, which injected reactive power to the power grid for accurate voltage regulation. This paper also proposed an autonomous multi-control selection algorithm to intelligently switch between the multiple charger controls in response to the power grid condition. Results showed that the proposed algorithm effectively instructed the charger to work in efficient control modes if the grid voltage was within the permissible voltage limits. Whenever the grid voltage exceeded the limits, the charger automatically switched to grid voltage control for power grid voltage regulation. (C) 2019 Elsevier Ltd. All rights reserved.

机译：本文提出了一种具有双向供电能力的多控制车辆对电网充电器。所提出的充电器可以执行车辆电池的充电和放电操作，以及电网支持，例如无功功率补偿，功率因数校正和电网电压调节。在各种电网情况下检查了充电器控件的性能。结果显示，在单位功率因数模式下运行时，车载充电器达到了最高的充电器效率。然而，以统一功率因数对车辆充电会导致电网电压明显下降，这可能会违反电网电压限制。通过使用电压控制解决了这个问题，该控制将无功功率注入电网以进行精确的电压调节。本文还提出了一种自主的多控制选择算法，以根据电网状况智能地在多个充电器控制之间进行切换。结果表明，如果电网电压在允许的电压极限内，则该算法有效地指示充电器以有效的控制模式工作。只要电网电压超过限制，充电器就会自动切换到电网电压控制，以调节电网电压。（C）2019 Elsevier Ltd.保留所有权利。

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来源
《Energy》 |2019年第15期|1150-1163|共14页
作者
Tan Kang Miao; Padmanaban Sanjeevikumar; Yong Jia Ying; Ramachandaramurthy Vigna K.;
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作者单位

Univ Tenaga Nas, Inst Power Engn, Dept Elect Power Engn, Jalan IKRAM UNITEN, Kajang 43000, Selangor, Malaysia;

Aalborg Univ, Dept Energy Technol, DK-6700 Esbjerg, Denmark;

Univ Tenaga Nas, Inst Power Engn, Dept Elect Power Engn, Jalan IKRAM UNITEN, Kajang 43000, Selangor, Malaysia;

Univ Tenaga Nas, Inst Power Engn, Dept Elect Power Engn, Jalan IKRAM UNITEN, Kajang 43000, Selangor, Malaysia;

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原文格式 PDF
正文语种 eng
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关键词
AC-DC power converters; DC-DC power converters; Electric vehicles; Power conversion; Reactive power control; Voltage control;

机译：AC-DC电源转换器;DC-DC电源转换器;电动汽车;电源转换;无功控制;电压控制;

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1. Vehicle-to-Grid Reactive Power Operation Using Plug-In Electric Vehicle Bidirectional Offboard Charger [J] . Kesler M., Kisacikoglu M.C., Tolbert L.M. Industrial Electronics, IEEE Transactions on . 2014,第12期

机译：使用插入式电动汽车双向舷外充电器的汽车到电网无功操作
2. Grid power quality improvement using a vehicle-to-grid enabled bidirectional off-board electric vehicle battery charger [J] . Lenka Rajesh Kumar, Panda Anup Kumar International journal of circuit theory and applications . 2021,第8期

机译：网格电源质量改进使用车辆致通用的双向外壳电动车电池充电器
3. Experimental verification of a flexible vehicle-to-grid charger for power grid load variance reduction [J] . Tan Kang Miao, Ramachandaramurthy Vigna K., Yong Jia Ying, Energy . 2021,第Auga1期

机译：用于电网负荷方差减少的柔性车辆到网格充电器的实验验证
4. Design of Bi-Directional Power Converter for Vehicle-to-Grid Capability of Reactive Power Compensation [C] . A Noorul Ameen, S Suresh International Conference on Trends in Electronics and Informatics . 2018

机译：车辆到电网无功补偿双向功率变换器的设计
5. Bi-directional DC-DC and DC-AC Converter Systems for Vehicle-to-Grid and Grid-to-Vehicle Power Transfer in Plug-in-Electric Vehicles [D] . Khan, Mehnaz Akhter 2015

机译：用于插电式电动汽车的车辆到电网和电网到车辆功率传输的双向DC-DC和DC-AC转换器系统
6. Optimized Power System Management Scheme for LSS PV Grid Integration in Malaysia Using Reactive Power Compensation Technique [O] . Mahesh Mohanan, Yun Ii Go 2020

机译：使用无功补偿技术的马来西亚LSS光伏并网优化电力系统管理方案
7. Adaptive reactive power control of PV power plants for improved power transfer capability under ultra-weak grid conditions [O] . Dongsheng Yang, Xiongfei Wang, Fangcheng Liu, 2017

机译：超弱电网条件下改善功率传输能力的PV发电厂的自适应无功控制

A multi-control vehicle-to-grid charger with bi-directional active and reactive power capabilities for power grid support

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