State Estimation and Real-Time Cyber Secure Power Factor Correction for Utility-Scale DERs

2019 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA) Pub Date : 2019-05-01 DOI:10.1109/PEPQA.2019.8851571

H. Albunashee, R. McCann

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引用次数: 2

Abstract

Reactive power (Q) is typically supplied by capacitor banks in conventional electric power distribution systems. However, the increasing use of distributed energy resources (DERs) complicates the ability to regulate voltages using conventional methods. This creates a need for secure network controls for coordinating reactive power compensation. Inverters presently used with wind and solar DERs have the ability to inject Q but do not have real-time information of the amount of Q consumed in the distribution system. In this paper, a combination of a tertiary droop control assisted by an ac-based state estimator for a ring/mesh distribution system is designed to control a 12.47kV DER to supply the required Q. Detailed simulation results show that such a combination can control DERs to keep the power factor greater than 98% at remote distribution substations in a quasi-real-time fashion. The results suggest that the future of distribution management systems (DMS) should follow the same trends in transmission-level energy management systems (EMS) in controlling DERs.

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公用事业规模DERs的状态估计与实时网络安全功率因数校正

在传统的配电系统中，无功功率通常由电容器组提供。然而，越来越多的分布式能源(DERs)的使用使使用传统方法调节电压的能力变得复杂。这就需要安全的网络控制来协调无功补偿。目前用于风能和太阳能der的逆变器有能力注入Q，但没有分配系统中消耗Q量的实时信息。本文针对环网配电系统，设计了一种基于交流状态估计器辅助的三级下垂控制组合，用于控制12.47kV的DER，以提供所需的q值，详细的仿真结果表明，该组合可以以准实时的方式控制远端配电变电站的DER，使功率因数大于98%。研究结果表明，未来配电管理系统(DMS)应遵循输电级能源管理系统(EMS)在控制耗电方面的发展趋势。

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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2019 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA)

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