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基于前馈自抗扰的光伏微电网混合储能控制策略
引用本文:刘志坚,李晓磊,梁宁,郑峰,伍仰金,张婷婷. 基于前馈自抗扰的光伏微电网混合储能控制策略[J]. 电力建设, 2021, 42(9): 96-104. DOI: 10.12204/j.issn.1000-7229.2021.09.010
作者姓名:刘志坚  李晓磊  梁宁  郑峰  伍仰金  张婷婷
作者单位:昆明理工大学电力工程学院,昆明市650504;福州大学电气工程与自动化学院,福州市350108;国网福建省电力有限公司宁德供电公司,福建省宁德市352101
摘    要:针对光伏微电网混合储能系统中储能设备间的功率分频分配有效性差和抗干扰能力较弱等问题,提出一种基于前馈自抗扰控制(feedforward linear active disturbance rejection control,FF-LADRC)的光伏微电网混合储能控制策略.首先,搭建混合储能系统中蓄电池和超级电容的双向D...

关 键 词:前馈自抗扰控制(FF-LADRC)  光伏微电网  双向DC-DC变换器  混合储能系统  低通滤波
收稿时间:2021-01-22

Control Strategy of Hybrid Energy Storage for Photovolatic Microgrid Applying Feedforward Active Disturbance Rejection
LIU Zhijian,LI Xiaolei,LIANG Ning,ZHENG Feng,WU Yangjin,ZHANG Tingting. Control Strategy of Hybrid Energy Storage for Photovolatic Microgrid Applying Feedforward Active Disturbance Rejection[J]. Electric Power Construction, 2021, 42(9): 96-104. DOI: 10.12204/j.issn.1000-7229.2021.09.010
Authors:LIU Zhijian  LI Xiaolei  LIANG Ning  ZHENG Feng  WU Yangjin  ZHANG Tingting
Affiliation:1. School of Electric Power Engineering, Kunming University of Science and Technology, Kunming 650504, China2. College of Electrical Engineering and Automation, Fuzhou University, Fuzhou 350108, China3. Ningde Power Supply Company, State Grid Fujian Electric Power Co., Ltd., Ningde 352101, Fujian Province, China
Abstract:Aiming at the problems of poor efficiency and weak anti-interference ability of energy-storage devices in the hybrid energy storage system of photovoltaic microgrid, this paper proposes an energy storage control strategy for hybrid photovoltaic microgrid applying the technology of feedforward linear active disturbance rejection control (FF-LADRC). Firstly, a bi-directional DC-DC mathematical model of the battery and super capacitor in the hybrid energy storage system is built. By introducing feedforward active disturbance control in the voltage loop control, the dynamic response speed and anti-jamming performance of the hybrid energy storage system are improved. A low-pass filter is set up to achieve power frequency division between different energy storage devices. At the same time, linear active disturbance rejection control is introduced into battery current loop and super capacitor current loop control to achieve coordinated control between different energy storage devices, thereby improving the power stability of the grid-connected side. The results of frequency domain analysis prove the effectiveness and stability of the proposed control strategy. The simulation results show that the proposed control strategy can quickly perform power frequency division distribution and coordinate the effective operation of the photovoltaic microgrid.
Keywords:feedforward linear active disturbance rejection control (FF-LADRC)  photovoltaic microgrid  bi-directional DC-DC converter  hybrid energy storage system  low-pass filtering  
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