Abstract
This paper develops a novel dynamic three-phase symmetric distribution network reconfiguration (DNR) approach based on hierarchical clustering with timing constraints, which can divide the time period according to the time-varying symmetric load demand and symmetric distributed generations (DGs) output condition for a given time interval. The significance of the proposed technique is that by approximating the cluster center as the load status and DGs output status of the corresponding period, in this way, the intractable dynamic reconfiguration problem can be recast as multiple single-stage static three-phase symmetric DNR problems, which can effectively reduce the complexity of the three-phase symmetric dynamic reconfiguration. Furthermore, an improved fireworks algorithm considering heuristic rules (H-IFWA) is proposed and investigated to efficiently manage each single-stage static three-phase symmetric DNR problem. In order to avoid trapping into a local optimum or to facilitate the computational performance, the power moment method and the coding method based on heuristic rules are employed to reduce the solution space. The effectiveness of the proposed H-IFWA is validated on the IEEE 33, 119-bus system and a practical-scale Taiwan power company (TPC) 84-bus test system with DGs.
Highlights
Distribution network reconfiguration (DNR) is the process of changing the topology of a network by switching the status of the tie switch and the section switch for the purpose of reducing the network loss, balancing load and improving voltage quality, and it is of great significance to improve the safe and economic operation of distribution networks (DNs) [1,2,3]
To demonstrate the difference between the H-IFWA method proposed in this paper and the ideal dynamic reconfiguration (IDR) method more clearly, according to the combination of single-stage static reconfiguration schemes during 24 periods, an IDR sc1h5eomf 1e9 is obtained without considering the limit of switch operation times
An improved hierarchical clustering technique based on timing constraints combined with an improved fireworks algorithm is presented to tackle the dynamic DNR problem
Summary
Distribution network reconfiguration (DNR) is the process of changing the topology of a network by switching the status of the tie switch and the section switch for the purpose of reducing the network loss, balancing load and improving voltage quality, and it is of great significance to improve the safe and economic operation of distribution networks (DNs) [1,2,3]. To handle the aforementioned challenges, in this paper, considering the output condition of DGs and load status, a time-division method based on an improved hierarchical clustering with timing constraints (IHCTC) algorithm is firstly proposed. According to the load status and DGs output of each period, the time is divided by adding the timing constraints to the Euclidean distance between data points in hierarchical clustering. In this way, the dynamic DNR problem is recast as a multiple single-stage static DNR problems, and it satisfies the switching number constraints. When DNR is performed according to the clustering result, there will be no problem of frequent switch action
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