The ability of a Dutch LV network to incorporate high penetration level of μ-CHPs considering network topology and units control strategy

2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies Pub Date : 2011-12-01 DOI:10.1109/ISGTEurope.2011.6162671

D. Kamperis, G. Vanalme, W. Kling

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引用次数: 2

Abstract

Micro-cogeneration units are expected to penetrate the domestic boiler market soon especially in countries with extensive gas network. A high penetration level can lead to problems in passive designed LV networks. The voltage rise across the distribution lines, due to the reverse power flow, seems to be the main limiting factor on the amount of μ-CHPs connected to the LV grid. Meshed networks are believed to incorporate higher level of distributed generators compared to radial networks. However, the possibility of μ-CHPs to operate under different control strategies will also enhance their penetration level and facilitate their integration in a Virtual Power Plant concept. This is shown by steady state simulations performed in a Dutch LV network. The scope of this paper is to illustrate how the network topology and the control strategy of μ-CHPs affect their maximum penetration level and how they can be integrated in a Virtual Power Plant.

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考虑网络拓扑结构和单元控制策略的荷兰低压网络整合μ-CHPs高渗透水平的能力

微型热电联产装置预计将很快进入国内锅炉市场，特别是在拥有广泛燃气网络的国家。在无源设计的低压网络中，高穿透水平会导致问题。由于反向潮流，配电线路上的电压上升似乎是连接到低压电网的μ-CHPs数量的主要限制因素。与径向网络相比，网状网络被认为包含更高水平的分布式发电机。然而，μ-CHPs在不同控制策略下运行的可能性也将提高它们的渗透水平，并促进它们在虚拟电厂概念中的集成。在荷兰低压电网中进行的稳态模拟表明了这一点。本文的范围是说明μ-CHPs的网络拓扑结构和控制策略如何影响它们的最大渗透水平，以及如何将它们集成到虚拟电厂中。

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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2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies

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