Mapping Flexibility Region through Three-phase Distribution Optimal Power Flow at TSO-DSO Point of Interconnection

2021 AEIT International Annual Conference (AEIT) Pub Date : 2021-10-04 DOI:10.23919/AEIT53387.2021.9627050

S. Bruno, Giovanni Giannoccaro, Cosimo Iurlaro, M. L. Scala, Luca Notaristefano, Carmine Rodio

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引用次数: 2

Abstract

In the coming years, distributed energy resources (DERs) located at medium voltage (MV) and low voltage (LV) level will be employed as flexible resources to face the uncertainties and the operative problems introduced by renewable energy sources (RES) in power system management. Nevertheless, to unlock the potential of such resources, a coordinated operation between transmission (TSO) and distribution (DSO) system operators is needed. The methodology of flexibility region estimation well fits such need, since it allows to calculate active and reactive power that can be aggregated and released from the DSO to the TSO at the interface point, without violating any steady-state distribution grid constraint. This paper investigated the feasibility of implementing a flexibility region estimation routine based on formulation of an unbalanced three-phase optimal power flow (TOPF), suitable to deal also with LV resources and unbalanced distribution networks. The methodology is tested considering the detailed representation of a portion of an Italian distribution grid, comprising about six hundred MV/LV buses. The availability of both active and reactive flexibility resources has been considered.

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TSO-DSO互联点三相配电最优潮流映射柔性区域

在未来几年，中压和低压分布式能源将作为柔性资源来应对可再生能源在电力系统管理中带来的不确定性和运行问题。然而，为了释放这些资源的潜力，输电(TSO)和配电(DSO)系统运营商之间需要协调运作。柔性区域估计方法很好地满足了这一需求，因为它允许在不违反任何稳态配电网约束的情况下，计算可从DSO到TSO在接口点聚合和释放的有功和无功功率。本文研究了基于不平衡三相最优潮流(TOPF)公式的柔性区域估计方法的可行性，该方法同样适用于低压资源和不平衡配电网。考虑到意大利配电网的一部分，包括大约600个中压/低压母线的详细表示，对该方法进行了测试。考虑了主动柔性资源和被动柔性资源的可用性。

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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2021 AEIT International Annual Conference (AEIT)

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