Cooperative Scheduling of Electric Springs and On-Load Tap Changers for Volt/Var Control in Active Distribution Networks

2023 6th International Conference on Energy, Electrical and Power Engineering (CEEPE) Pub Date : 2023-05-12 DOI:10.1109/CEEPE58418.2023.10166393

Jianhua Gong, Li Liu, Keng-Weng Lao

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Abstract

Coordinated voltage and reactive power control of the active distribution networks (ADNs) are usually based on discrete regulating devices like the on-load tap changer (OLTC). However, frequent operations of the OLTC are detrimental to its long-term service life. Also, discrete adjustments of OLTC taps cannot meet the requirement of precise volt/var control (VVC). To address this, the emerging electric spring is proposed for joint VVC with the OLTC in ADNs in this paper. First, we develop a time-series optimization model for VVC in ADN. In this model, multiple electric springs and the OLTC are regarded as controllable devices. The objective function comprises minimum power losses and minimum voltage violations. Then, the electric springs contribute to decreasing total tap movements of OLTC, which is represented as a constraint in the proposed model. Case studies are carried out on a modified IEEE-33 test feeder. Simulation results validate the effectiveness and accuracy of the proposed model.

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有功配电网电压/无功控制中电动弹簧和有载分接开关的协同调度

有功配电网的电压和无功协调控制通常基于有载分接开关(OLTC)等离散调节装置。但是，频繁的操作不利于OLTC的长期使用寿命。此外，OLTC抽头的离散调节不能满足精确的电压/无功控制(VVC)的要求。为了解决这个问题，本文提出了一种新兴的电子弹簧，用于ADNs中与OLTC的联合VVC。首先，我们建立了ADN中VVC的时间序列优化模型。在该模型中，将多个电弹簧和OLTC视为可控装置。目标函数包括最小的功率损耗和最小的电压违和。然后，电动弹簧有助于减少OLTC的总丝锥运动，这在所提出的模型中表示为约束。案例研究是在一个改进的IEEE-33测试馈线上进行的。仿真结果验证了该模型的有效性和准确性。

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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2023 6th International Conference on Energy, Electrical and Power Engineering (CEEPE)

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