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A frequency control strategy of electric vehicles in microgrid using virtual synchronous generator control

机译:虚拟同步发电机控制微电网电动车辆的频率控制策略

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摘要

In recent years, with the increase in energy resource penetration into power systems, more technical requirements regarding the frequency control capability of renewable energy have become required. Plug-in electrical vehicles (PEVs) have become increasingly commercialized, and vehicle-to-grid technology has received extensive attention. This paper proposes a novel frequency control strategy for EVs to participate in the primary and secondary frequency regulations of microgrids. Virtual inertia and virtual damping are introduced using a virtual synchronous generator through AC/DC control. Thus, the charging/discharging device has the characteristics of inertia and damping, which are similar to those of a synchronous generator. According to the droop characteristic of an EV's charging frequency, the designed auxiliary frequency regulation method can be used to calculate the power adjustment to change the reference value of the EV's charging/discharging power, allowing the EV to participate in the frequency regulation of a microgrid. The models and connected microgrid were established using MATLAB/Simulink software, and the proposed control strategy was tested. The proposed frequency control strategy can provide virtual inertia, damping, and frequency support; improve the dynamic stability; and realize an effective frequency regulation when the microgrid works in an independent operational mode.
机译:近年来,随着能源资源渗透到电力系统的增加,有关可再生能源的频率控制能力的技术要求已经成为必需。插入式电动车(PEV)已经变得越来越多地商业化,车辆到网格技术受到广泛关注。本文提出了一种新的频率控制策略,用于参与微电网的主要和二次频率规定。通过AC / DC控制使用虚拟同步发电机引入虚拟惯性和虚拟阻尼。因此,充电/放电装置具有惯性和阻尼的特性,其类似于同步发电机的特性。根据EV的充电频率的下垂特性,设计的辅助频率调节方法可用于计算功率调整以改变EV的充电/放电功率的参考值,允许EV参与MicroGrid的频率调节。使用MATLAB / SIMULIND软件建立了模型和连接的微电网,并测试了所提出的控制策略。所提出的频率控制策略可以提供虚拟惯性,阻尼和频率支持;提高动态稳定性;在独立操作模式下的微电网工作时实现有效频率调节。

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  • 来源
    《Energy》 |2019年第2期|116389.1-116389.12|共12页
  • 作者

    Pengfei Li; Weihao Hu; Xiao Xu; Qi Huang; Zhou Liu; Zhe Chen;

  • 作者单位

    School of Mechanical and Electrical Engineering. University of Electronic Science and Technology China Chengdu 611731 China Department of Energy Technology Aalborg University Aalborg 9220 Denmark;

    School of Mechanical and Electrical Engineering. University of Electronic Science and Technology China Chengdu 611731 China;

    School of Mechanical and Electrical Engineering. University of Electronic Science and Technology China Chengdu 611731 China;

    School of Mechanical and Electrical Engineering. University of Electronic Science and Technology China Chengdu 611731 China;

    Department of Energy Technology Aalborg University Aalborg 9220 Denmark;

    Department of Energy Technology Aalborg University Aalborg 9220 Denmark;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Microgrid; Electric vehicle; Primary frequency control; Secondary frequency control; Charging and discharging; Virtual synchronous generator;

    机译:微电器;电动车;初级频率控制;二次频率控制;充电和放电;虚拟同步发电机;

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