Non-Disruptive MPC-Based Frequency and Voltage Control in Microgrids

机译：基于非中断的MPC的MicroGrid频率和电压控制

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High levels of intermittent renewables bring challenges to the frequency and voltage control scheme design for microgrids (MGs). This paper studies frequency and voltage regulation of MGs using both generation-side control and load-side control. A switched model predictive control (MPC) controller is designed to achieve twofold targets. First, it makes generators work together with loads to regulate MG frequency and bus voltages. Second, when the preset conditions regarding to bus voltages are satisfied, it minimizes disruption to loads by changing the objective function in MPC. A switching algorithm is designed to determine whether the proposed MPC works in frequency and voltage regulation mode or in load restoration mode. Simulation results show that the proposed controller successfully mitigates the frequency and voltage fluctuations caused by renewables and meanwhile minimizes the impact of the load-side control on loads.

机译：高水平的间歇可再生能源对微电网（MGS）的频率和电压控制方案设计带来挑战。本文研究了MGS的频率和电压调节，使用这两种产生侧控制和负载侧控制。开关模型预测控制（MPC）控制器旨在实现双重靶标。首先，它使得发电机与负载一起使用以调节MG频率和总线电压。其次，当满足有关于总线电压的预设条件时，通过改变MPC中的目标函数，它最大限度地减少了负载的中断。开关算法旨在确定所提出的MPC是否适用于频率和电压调节模式或负载恢复模式。仿真结果表明，建议的控制器成功减轻了可再生能源引起的频率和电压波动，同时最大限度地减少了负载侧控制对负载的影响。

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《IEEE Madrid PowerTech Conference》|2021年|1-6|共6页
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Y. Cheng; Tao Liu; David J. Hill;
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Voltage fluctuations; Computational modeling; Simulation; Switches; Microgrids; Frequency conversion; Control systems;

机译：电压波动;计算建模;仿真;开关;微电网;变频;控制系统;

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1. Distributed MPC-Based Frequency Control in Networked Microgrids With Voltage Constraints [J] . Liu Kun, Liu Tao, Tang Zhiyuan, Smart Grid, IEEE Transactions on . 2019,第6期

机译：具有电压约束的网络微电网中基于MPC的分布式频率控制
2. Distributed MPC-Based Secondary Voltage Control Scheme for Autonomous Droop-Controlled Microgrids [J] . Guannan Lou, Wei Gu, Yinliang Xu, Sustainable Energy, IEEE Transactions on . 2017,第2期

机译：基于MPC的分布式下垂控制微电网二次电压控制方案
3. Design guidelines for MPC-based frequency regulation for islanded microgrids with storage, voltage, and ramping constraints [J] . Liang Liang, Yunhe Hou, David John Hill Renewable Power Generation, IET . 2017,第8期

机译：基于MPC的频率微调的设计准则，适用于具有存储，电压和斜坡约束的孤岛微电网
4. Distributed MPC-based secondary voltage control scheme for autonomous droop-controlled microgrids [C] . Guannan Lou, Wei Gu, Yinliang Xu, IEEE Power and Energy Society General Meeting . 2017

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5. Robust Adaptive Nonlinear Control of Microgrid Frequency and Voltage in the Presence of Renewable Energy Sources =Contrôle robuste non linéaire adaptatif de la fréquence et la tension du microréseau en présence des sources d'énergie renouvelables [D] . Taheri Ledari, Hamed. 2017

机译：在存在可再生能源的情况下，微电网的频率和电压的鲁棒自适应非线性控制=在存在可再生能源的情况下，微电网的频率和电压的鲁棒自适应非线性控制
6. The Application of Auto-Disturbance Rejection Control Optimized by Least Squares Support Vector Machines Method and Time-Frequency Representation in Voltage Source Converter-High Voltage Direct Current System [O] . Ying-Pei Liu, Hai-Ping Liang, Zhong-Ke Gao -1

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Non-Disruptive MPC-Based Frequency and Voltage Control in Microgrids

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