通过机会约束优化实现配电网络的增量电压/电流控制

arXiv - CS - Systems and Control Pub Date : 2024-05-03 DOI:arxiv-2405.02511

Antonin Colot, Elisabetta Perotti, Mevludin Glavic, Emiliano Dall'Anese

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引用次数: 0

摘要

本文探讨了一种增量式电压/电压变化控制方案，适用于高度集成逆变器的分布式发电配电系统（如光伏系统）。增量式电压/电压控制器的目标是最大限度地减少无功功率的使用，同时足够频繁地将电压维持在安全范围内。为此，增量式电压/电流控制器的参数是通过求解电压约束优化问题来获得的，其中的约束条件旨在确保电压异常发生的频率不会超过预先指定的概率。这种方法能以可控、可预测的方式节约成本，同时还能避免出现严重的过压或欠压问题。所提出的机会受限问题是通过连续凸逼近法来解决的。一旦将增益广播给逆变器，就不需要额外的通信，因为控制器是在逆变器上就地实现的。所提出的方法在低电压 42 节点网络上进行了成功测试。

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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Incremental Volt/Var Control for Distribution Networks via Chance-Constrained Optimization

This paper considers an incremental Volt/Var control scheme for distribution systems with high integration of inverter-interfaced distributed generation (such as photovoltaic systems). The incremental Volt/Var controller is implemented with the objective of minimizing reactive power usage while maintaining voltages within safe limits sufficiently often. To this end, the parameters of the incremental Volt/Var controller are obtained by solving a chance-constrained optimization problem, where constraints are designed to ensure that voltage violations do not occur more often than a pre-specified probability. This approach leads to cost savings in a controlled, predictable way, while still avoiding significant over- or under-voltage issues. The proposed chance-constrained problem is solved using a successive convex approximation method. Once the gains are broadcast to the inverters, no additional communication is required since the controller is implemented locally at the inverters. The proposed method is successfully tested on a low-voltage 42-nodes network.

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arXiv - CS - Systems and Control

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