Integration of PV system into LV distribution networks with Demand Response application

2015 IEEE Eindhoven PowerTech Pub Date : 2015-09-03 DOI:10.1109/PTC.2015.7232777
C. K. Gan, M. Shamshiri, D. Pudjianto
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引用次数: 2

Abstract

The increasing number of PV system connected to LV distribution networks may trigger network reinforcement to maintain voltages and power flows within the statutory limits. The paper aims to investigate how different levels of Demand Response (DR) participation can facilitate the integration of PV. In order to get robust conclusion, fractal-based generic distribution network model is used to generate many statistically similar networks. Subsequently, a Particle Swarm Optimization approach to model the optimal demand pattern for various levels of DR participation is investigated in the study. The results suggest that DR can significantly improve self (local) consumption of PV output. As a result, network losses decrease and the voltage rise effect at high PV penetration can be alleviated.
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光伏系统与低压配电网的集成及需求响应应用
越来越多的光伏系统接入低压配电网,可能会触发电网加固,以保持电压和潮流在法定范围内。本文旨在探讨不同水平的需求响应(DR)参与如何促进光伏发电的整合。为了得到稳健的结论,采用基于分形的通用配电网模型,生成了多个统计上相似的配电网。在此基础上,采用粒子群优化方法建立了不同程度的DR参与的最优需求模式模型。结果表明,DR可以显著提高光伏输出的自(局部)消耗。这样可以降低电网损耗,缓解光伏高侵彻时的电压上升效应。
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2015 IEEE Eindhoven PowerTech
2015 IEEE Eindhoven PowerTech
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