微电网动态下基于逆变器的dg自适应分层控制结构

2019 7th International Istanbul Smart Grids and Cities Congress and Fair (ICSG) Pub Date : 2019-04-01 DOI:10.1109/SGCF.2019.8782298

Alireza Esmaeili Karkevandi, Matin Jamaliyan Daryani, H. Seifi

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引用次数: 2

摘要

微电网是一个由负载和分布式发电机组成的配电系统，它们作为一个单一的电力系统运行，为局部地区的负载供电。dg具有多种环境效益和经济效益，但其在网络中的存在对控制、稳定和保护等方面提出了巨大的技术挑战，近年来随着dg的日益普及，这一问题日益突出。电力电子接口dg在微电网控制侧受到特别关注，因为其控制系统对dg的行为和微电网的稳定起着重要作用。本文提出了一种基于逆变器DGs的多模控制系统的分层结构，该结构可以根据网络需求在电压源控制器(VSC)和电流源控制器(CSC)结构之间进行自适应切换。该系统以通信为基础，微电网中央控制器(MGCC)通过通信通道作为第三级控制层提供辅助。

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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A Novel Adaptive Hierarchical Control Structure for Inverter Based DGs under Microgrid Dynamics

Microgrid is a distribution system consisted of loads and Distributed Generators (DGs) which are operating as a single power system to supply local area loads. DGs can provide various environmental and economical benefits but their presence in network poses great technical challenges in control, stability and protection sides which become a noticeable issues associated with the growing penetration of DGs in recent years. Power electronic interfaced DGs are of especial concern in microgrid control side as their control systems play a principal role in the DGs behaviors and subsequently microgrid stability. In this paper a hierarchical structure for multimode control system of inverter based DGs is presented which adaptively switches between Voltage Source Controller (VSC) and Current Source Controller (CSC) strictures according to network requirements during pre-and post-contingency conditions. The proposed system is communication based and assisted by Microgrid Central Controller (MGCC) as a tertiary control level through communication channels.

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2019 7th International Istanbul Smart Grids and Cities Congress and Fair (ICSG)

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