Line loss optimization based OPF strategy by hierarchical control for DC microgrid

2015 IEEE Energy Conversion Congress and Exposition (ECCE) Pub Date : 2015-10-29 DOI:10.1109/ECCE.2015.7310531

Junchao Ma, F. He, Zhengming Zhao

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引用次数: 7

Abstract

DC micro-grids are considered as a friendly way to integrate renewable energy resources as well as distributed energy storage systems. With high penetration of power electronic converters in DC micro-grids, the control strategies of DC micro-grids can be very flexible. However, the line loss is relatively high at the same time. Thus, a proper optimal power flow (OPF) strategy is needed for DC micro-grids to minimize the line loss. Different from OPF for conventional grids, OPF for micro-grids should not require prior knowledge of grid structure and line impedance because power sources and loads may have frequent reconfiguration in grid architecture and the extendibility of the grid needs to be taken highly into consideration. In this paper, a control strategy for OPF in DC micro-grids is proposed. It is based on conventional hierarchical in DC grids with low bandwidth communication. The key point is an improvement in the secondary control strategy. The proposed OPF strategy needs neither knowledge of grid structure nor operating condition. A 400V microgrid simulation model is presented to verify the proposed method.

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基于分层控制的直流微电网线损优化OPF策略

直流微电网被认为是集成可再生能源和分布式储能系统的一种友好方式。随着电力电子变换器在直流微电网中的高度普及，直流微电网的控制策略可以非常灵活。但同时线损也比较高。因此，直流微电网需要一个合适的最优潮流(OPF)策略来最小化线路损耗。与传统电网的OPF不同，微电网的OPF不需要预先了解电网结构和线路阻抗，因为电源和负载在电网结构中可能会频繁重构，并且需要高度考虑电网的可扩展性。本文提出了一种直流微电网OPF控制策略。在低带宽通信的直流电网中，它是基于传统的分层结构。关键是对二次控制策略的改进。所提出的OPF策略既不需要了解电网结构，也不需要了解运行状态。通过400V微电网仿真模型验证了该方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Energy Conversion Congress and Exposition (ECCE)

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