Multi-level control framework for enhanced flexibility of active distribution network

N. Karthikeyan, Basanta Raj Pokhrel, J. Pillai, B. Bak‐Jensen
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引用次数: 3

Abstract

In this paper, the control objectives of future active distribution networks with high penetration of renewables and flexible loads are analyzed and reviewed. From a state of the art review, the important control objectives seen from the perspective of a distribution system operator are identified to be hosting capacity improvement, high reliable operation and cost effective network management. Based on this review and a state of the art review concerning future distribution network control methods, a multi-level control architecture is constructed for an active distribution network, which satisfies the selected control objectives and provides enhanced flexibility. The control architecture is supported by generation/load forecasting and distribution state estimation techniques to improve the controllability of the network. The multi-level control architecture consists of three levels of hierarchical control and an improved interface to the transmission system operator. The functions and the appropriate control methods to be used in each control level are described based on the state of the art review. A combined control action of these control layers is aimed for efficient co-ordination and management of the network assets at different voltage levels and geographical locations. The paper finally shows the applicability of the multi-level control architecture to some of the key challenges in the distribution system operation by relevant scenarios.
提高有源配电网灵活性的多级控制框架
本文对未来具有高可再生能源渗透率和柔性负荷的有源配电网的控制目标进行了分析和评述。从最新的技术回顾来看,从配电系统运营商的角度来看,重要的控制目标是提高主机容量,高可靠性运行和经济有效的网络管理。在此基础上,结合对未来配电网控制方法的研究现状,对有源配电网构建了多级控制体系结构,该体系结构既满足所选控制目标,又提高了配电网的灵活性。该控制体系结构由发电/负荷预测和分布状态估计技术支持,以提高网络的可控性。多级控制体系结构由三级层次控制和改进的传输系统操作员接口组成。在每个控制级别中使用的功能和适当的控制方法基于现有技术的回顾进行了描述。这些控制层的联合控制行动旨在有效地协调和管理不同电压水平和地理位置的网络资产。文章最后通过相关的场景说明了多级控制体系结构对配电系统运行中的一些关键挑战的适用性。
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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