Three-phase AC optimal power flow based distribution locational marginal price

Rui Yang, Y. Zhang
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引用次数: 22

Abstract

Designing market mechanisms for electricity distribution systems has been a hot topic due to the increased presence of smart loads and distributed energy resources (DERs) in distribution systems. The distribution locational marginal pricing (DLMP) methodology is one of the real-time pricing methods to enable such market mechanisms and provide economic incentives to active market participants. Determining the DLMP is challenging due to high power losses, the voltage volatility, and the phase imbalance in distribution systems. Existing DC Optimal Power Flow (OPF) approaches are unable to model power losses and the reactive power, while single-phase AC OPF methods cannot capture the phase imbalance. To address these challenges, in this paper, a three-phase AC OPF based approach is developed to define and calculate DLMP accurately. The DLMP is modeled as the marginal cost to serve an incremental unit of demand at a specific phase at a certain bus, and is calculated using the Lagrange multipliers in the three-phase AC OPF formulation. Extensive case studies have been conducted to understand the impact of system losses and the phase imbalance on DLMPs as well as the potential benefits of flexible resources.
基于配电网边际电价的三相交流最优潮流
随着智能负荷和分布式能源在配电系统中的应用日益广泛,配电系统的市场机制设计已成为一个热门话题。分配区位边际定价(DLMP)方法是实现这种市场机制的实时定价方法之一,并为活跃的市场参与者提供经济激励。由于配电系统中的高功率损耗、电压波动和相位不平衡,确定DLMP具有挑战性。现有的直流最优潮流(OPF)方法无法对功率损耗和无功功率进行建模,而单相交流最优潮流方法无法捕获相位不平衡。为了解决这些挑战,本文开发了一种基于三相交流OPF的方法来精确定义和计算DLMP。DLMP被建模为满足某一总线特定阶段增量单位需求的边际成本,并使用三相交流OPF公式中的拉格朗日乘法器计算。已经进行了大量的案例研究,以了解系统损耗和相位不平衡对DLMPs的影响以及灵活资源的潜在好处。
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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