Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

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Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

机译：低压交流微电网的最优多目标控制：潮流调节和无功补偿与不平衡

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The presence of single-phase distributed generators unevenly injecting active power in three-phase microgrids may create undesired upstream current unbalance. Consequently, voltage asymmetry and even active power curtailment may occur in such networks with negative economic impact. Thus, this paper proposes an optimal multiobjective approach to regulate the active and reactive power delivered by distributed generators driven by a three-layer hierarchical control technique in low-voltage microgrids. This method does not require previous knowledge of network parameters. The multiobjective algorithm is implemented in the secondary level achieving optimal dispatch in terms of maximizing the active power generation, as well as minimizing the reactive power circulation and current unbalance. By the existence of a utility interface three-phase converter placed at the point-of-common-coupling, the proposed control can regulate the power circulating among the microgrid phases, and the microgrid structure can withstand grid-connected and islanded operating modes. The path for interphase power circulation through the DC-link of the utility interface allows the multiobjective algorithm to achieve better results in terms of generation and compensation compared to the system without utility interface. The proposed method is assessed herein by computational simulations in a three-phase four-wire microgrid under realistic operational conditions.

机译：单相分布式发电机的存在会在三相微电网中不均匀地注入有功功率，这可能会导致不希望的上游电流不平衡。因此，在这种网络中可能会出现电压不对称甚至是有功功率削减，并对经济造成负面影响。因此，本文提出了一种最优的多目标方法来调节低压微电网中由三层分层控制技术驱动的分布式发电机的有功和无功功率。此方法不需要事先了解网络参数。多目标算法在次级级别实现，从而在最大化有功功率，最小化无功功率循环和电流不平衡方面实现了最佳调度。通过在公用耦合点处放置公用接口三相变频器，所提出的控制可以调节微电网相之间的功率循环，并且微电网结构可以承受并网和孤岛运行模式。与没有公用接口的系统相比，通过公用接口的直流链路进行相间功率循环的路径使多目标算法在发电和补偿方面达到更好的结果。本文通过在实际操作条件下在三相四线微电网中进行计算仿真来评估提出的方法。

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《Smart Grid, IEEE Transactions on》 |2020年第2期|1239-1252|共14页
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Univ Fed Minas Gerais Grad Program Elect Engn BR-31270010 Belo Horizonte MG Brazil;

Fed Inst Minas Gerais Campus Ipatinga BR-35164261 Ipatinga Brazil;

Sao Paulo State Univ Grp Automat & Integrated Syst BR-18087180 Sorocaba Brazil|Norwegian Univ Sci & Technol Dept Elect Power Engn N-7491 Trondheim Norway;

Norwegian Univ Sci & Technol Dept Elect Power Engn N-7491 Trondheim Norway;

Sao Paulo State Univ Grp Automat & Integrated Syst BR-18087180 Sorocaba Brazil;

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正文语种 eng
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关键词
Reactive power; Voltage control; Load flow; Microgrids; Power generation; Optimization; Inverters; Distributed generation; microgrid; multiobjective; optimization; power quality; unbalance;

机译：无功功率;电压控制;潮流微电网;发电;优化;逆变器;分布式发电;微电网多目标优化;电能质量不平衡;

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1. A Sequence-Component-Based Power-Flow Analysis for Unbalanced Droop-Controlled Hybrid AC/DC Microgrids [J] . Allam Mahmoud A., Hamad Amr A., Kazerani Mehrdad Sustainable Energy, IEEE Transactions on . 2019,第3期

机译：基于序列分量的不平衡下垂控制交流/直流微电网潮流分析
2. Three-phase AC/DC power-flow for balanced/unbalanced microgrids including wind/solar, droop-controlled and electronically-coupled distributed energy resources using radial basis function neural networks [J] . Hamid Reza Baghaee, Mojtaba Mirsalim, Gevork B. Gharehpetian, Power Electronics, IET . 2017,第3期

机译：平衡/不平衡微电网的三相AC / DC功率流，包括使用径向基函数神经网络的风/太阳能，压降控制和电子耦合分布式能源
3. Coordinated power control without AC voltage sensing and active power filtering using interlinking converter with reduced interlinking power flow in a droop controlled islanded hybrid AC-DC microgrid [J] . Shravan R. V. S. E., Vyjayanthi C. European transactions on electrical power engineering . 2021,第3期

机译：使用互通转换器具有交流电压检测和有源电力滤波的协调功率控制，在下垂控制的岛混合AC-DC微电网中减少了互连电流的互连电流
4. Multiobjective approach for power flow and unbalance control in low-voltage networks considering distributed energy resources [C] . W. M. Ferreira, D. I. Brandao, F. G. Guimarães, Brazilian Power Electronics Conference . 2017

机译：考虑分布式能源的低压电网潮流和不平衡控制的多目标方法
5. Power Flow Control in Hybrid AC/DC Microgrids [D] . Matthews, Ronald C. 2018

机译：交流/直流混合微电网中的潮流控制
6. Analysis and Experimental Verification of New Power Flow Control for Grid-Connected Inverter with LCL Filter in Microgrid [O] . Herong Gu, Yajuan Guan, Huaibao Wang, -1

机译：微电网LCL滤波器并网逆变器新型潮流控制的分析与实验验证
7. Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance [O] . Danilo I. Brandao, Willian M. Ferreira, Augusto M. S. Alonso, 2020

机译：低压AC微电网的最佳多目标控制：电流调节和无功功率和不平衡的补偿

Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

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