Application of reduced PTDF matrix in iterative modified DC network model for cross-border capacity calculation with consideration of reactive power flow constraints

IEEE EUROCON 2017 -17th International Conference on Smart Technologies Pub Date : 2017-07-01 DOI:10.1109/EUROCON.2017.8011148

J. Angelov, R. Taleski, Jovica Vuletic, M. Todorovski, P. Krstevski, A. Mateska

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Abstract

One of the biggest threats for the security of power grids are congestion of cross-border lines and congestion in the network itself as result of parallel flows. Nowadays, occurrence of congestion is a result of limited network transfer capacities as a direct consequence of increased power transactions. One of the reasons for cross-border congestions are the unreal cross-border capacities calculations. This is a result of assumptions and simplifications made in the methodologies for total transfer capacity calculation. In this paper, we propose an iterative optimization algorithm based on modified DC network model that takes into consideration reactive power flows and all the constraints that comes forward. The proposed methodology is based on reduced Power Transfer Distribution Factor (PTDF) Power Transfer Distribution Factor) matrix. This approach successfully solves two DC Optimal Power Flow (OPF) problems: cost minimization and total transfer capacity calculation. For testing purposes IEEE test network RTS 96 is used.

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简化PTDF矩阵在考虑无功潮流约束的迭代修正直流网络跨界容量计算中的应用

电网安全面临的最大威胁之一是跨境线路的拥塞以及由于并行流而导致的网络本身的拥塞。目前，拥塞的发生是由于电力交易的增加直接导致了网络传输能力的限制。跨境拥堵的原因之一是不真实的跨境容量计算。这是总转移能力计算方法的假设和简化的结果。在本文中，我们提出了一种基于改进的直流网络模型的迭代优化算法，该模型考虑了无功潮流和所提出的所有约束。所提出的方法是基于简化的功率传输分配因子(PTDF)矩阵。该方法成功地解决了成本最小化和总输电容量计算两个直流最优潮流问题。为了测试目的，使用IEEE测试网络RTS 96。

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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IEEE EUROCON 2017 -17th International Conference on Smart Technologies

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