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Junpeng Zhu,Wei Gu,Ping Jiang,Shan Song,Haitao Liu,Huishi Liang,Ming Wu 대한전기학회 2017 Journal of Electrical Engineering & Technology Vol.12 No.6
When a failure occurs in active distribution system, it will be isolated through the action of circuit breakers and sectionalizing switches. As a result, the network might be divided into several connected components, in which distributed generations could supply power for customers. Aimed at decreasing customer interruption cost, this paper proposes a theoretically optimal island partition model for such connected components, and a simplified but more practical model is also derived. The model aims to calculate a dynamic island partition schedule during the failure recovery time period, instead of a static islanding status. Fluctuation and stochastic characteristics of the renewable distributed generations and loads are considered, and the interruption cost functions of the loads are fitted. To solve the optimization model, a heuristic search algorithm based on the hill climbing method is proposed. The effectiveness of the proposed model and algorithm is evaluated by comparing with an existing static island partitioning model and intelligent algorithms, respectively.
Zhu, Junpeng,Gu, Wei,Jiang, Ping,Song, Shan,Liu, Haitao,Liang, Huishi,Wu, Ming The Korean Institute of Electrical Engineers 2017 Journal of Electrical Engineering & Technology Vol.12 No.6
When a failure occurs in active distribution system, it will be isolated through the action of circuit breakers and sectionalizing switches. As a result, the network might be divided into several connected components, in which distributed generations could supply power for customers. Aimed at decreasing customer interruption cost, this paper proposes a theoretically optimal island partition model for such connected components, and a simplified but more practical model is also derived. The model aims to calculate a dynamic island partition schedule during the failure recovery time period, instead of a static islanding status. Fluctuation and stochastic characteristics of the renewable distributed generations and loads are considered, and the interruption cost functions of the loads are fitted. To solve the optimization model, a heuristic search algorithm based on the hill climbing method is proposed. The effectiveness of the proposed model and algorithm is evaluated by comparing with an existing static island partitioning model and intelligent algorithms, respectively.
Zijian Lv,Qin Zhong,Yunfei Bu,Junpeng Wu 대한금속·재료학회 2016 ELECTRONIC MATERIALS LETTERS Vol.12 No.6
The morphology and electrical conductivity are essential toelectrochemical performance of electrode materials in renewableenergy conversion and storage technologies such as fuel cells andsupercapacitors. Here, we explored a facile method to growAg@nickel-cobalt layered double hydroxide (Ag@Ni/Co-LDHs) with3D flower-like microsphere structure. The results show themorphology of Ni/Co-LDHs varies with the introduction of Agspecies. The prepared Ag@Ni/Co-LDHs not only exhibits an openhierarchical structure with high specific capacitance but also showsgood electrical conductivity to support fast electron transport. Benefiting from the unique structural features, these flower-likeAg@Ni/Co-LDHs microspheres have impressive specific capacitanceas high as 1768 F g−1 at 1 A g−1. It can be concluded that engineeringthe structure of the electrode can increase the efficiency of the specificcapacitance as a battery-type electrode for hybrid supercapacitors.