有时间延迟的孤岛微电网的分布式加权平均预测控制和延迟裕度分析

IF 4.8 2区 工程技术 Q2 ENERGY & FUELS
Zhiping Cheng, Kaifang Wang, Zhongwen Li
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引用次数: 0

摘要

在实际微电网(MGs)的通信过程中,时延是不可避免的,它可能导致控制器失效,甚至影响稳定性。本文提出了一种分布式加权平均预测(WAP)控制,用于具有时延的孤岛微电网二次控制,并分析了其时延裕度。首先,设计了一种二次控制策略,以实现频率和平均电压恢复以及精确的有功和无功功率分担。其次,提出了一种 WAP 策略,以改善所设计的 MG 系统的延迟裕度。最后,对 MG 系统的稳定性和延迟裕度进行了频域分析,并得出了计算延迟裕度的严格公式。与没有 WAP 控制的系统相比,系统的延迟裕度提高了 15.8%。仿真结果和基于 StarSim Modeling Tech 实时实验平台的实验结果验证了所提方法的有效性和可行性。结果表明,所提出的控制策略可以提高系统的延迟裕度。提出的分析方法可以得到具体系统延迟裕度的表达式,从而指导参数设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distributed weighted average predictive control and delay margin analysis for an islanded microgrid with time delay

The time delay is inevitable in the communication process of actual microgrids (MGs), which may lead to controller failure and even affect stability. This paper proposes a distributed weighted average prediction (WAP) control for the secondary control of islanded MGs with time delay and analyzes its delay margins. Firstly, a secondary control strategy is designed to achieve the frequency and average voltage recovery and accurate active and reactive power-sharing. Secondly, a WAP strategy is proposed to improve the delay margin of the designed MG system. Finally, the stability and delay margin of the MG system is analyzed in the frequency domain and a rigorous formula is derived to calculate the delay margin. Compared with the system without WAP control, the delay margin of the system can be increased by 15.8%. The simulation results and the experimental results based on the StarSim Modeling Tech Real-time experimental platform verify the effectiveness and feasibility of the proposed method. The results demonstrate that the proposed control strategy can improve the delay margin of the system. The proposed analysis method can obtain the expression of specific system delay margins, which can guide the parameter design.

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来源期刊
Sustainable Energy Grids & Networks
Sustainable Energy Grids & Networks Energy-Energy Engineering and Power Technology
CiteScore
7.90
自引率
13.00%
发文量
206
审稿时长
49 days
期刊介绍: Sustainable Energy, Grids and Networks (SEGAN)is an international peer-reviewed publication for theoretical and applied research dealing with energy, information grids and power networks, including smart grids from super to micro grid scales. SEGAN welcomes papers describing fundamental advances in mathematical, statistical or computational methods with application to power and energy systems, as well as papers on applications, computation and modeling in the areas of electrical and energy systems with coupled information and communication technologies.
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