Multi-temporal optimal power flow for assessing the renewable generation hosting capacity of an active distribution system

E. Grover-Silva, R. Girard, G. Kariniotakis
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引用次数: 8

Abstract

The detailed modeling of distribution grids is expected to be critical to understand the current functionality limits and necessary retrofits to satisfy integration of massive amounts of distributed generation, energy storage devices and the electric consumption demand of the future. Due to the highly dimensional non-convex characteristics of the power flow equations, convex relaxations have been used to ensure an efficient calculation time. However, these relaxations have been proven to be inexact during periods of high RES injection. In this paper additional linear constraints were introduced in the power flow formulation to guaranty an exact relaxation. This convex relaxation is then applied within a multi-temporal algorithm in order to evaluate the benefits of storage grid integration. The case study of a French medium voltage feeder is studied to evaluate the maximum capacity of the grid to host RES sources and the advantages of storage systems in reducing curtailment of RES.
有功配电系统可再生能源发电容量的多时最优潮流评估
对于了解当前的功能限制和必要的改造,以满足大量分布式发电、储能设备和未来电力消费需求的集成,配电网的详细建模预计是至关重要的。由于功率流方程的高维非凸特性,凸松弛被用来保证高效的计算时间。然而,在高RES注射期间,这些松弛已被证明是不精确的。本文在潮流公式中引入了额外的线性约束,以保证精确的松弛。然后将这种凸松弛应用于多时间算法中,以评估存储网格集成的好处。本文以法国中压馈线为例,评估了电网承载可再生能源的最大容量以及储能系统在减少可再生能源弃电方面的优势。
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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