Intelligent-single-phase auto-reclosing scheme using line-voltage-phasor-side analysis

Intelligent-single-phase auto-reclosing scheme using line-voltage-phasor-side analysis

Due to the extended length of transmission lines, electrical equipment is frequently exposed to various faults. To ensure a continuous supply of electricity to consumers and maintain the stability of the power grid, the implementation of reconnection schemes proves to be highly effective. In the cas...

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Bibliographic Details
Main Authors: Mohammad Hassan Tanha, Majid Gandomkar, Javad Nikoukar, Ali Aranizadeh
Format: Article
Language:English
Published: Elsevier 2025-03-01
Series:Results in Engineering
Subjects:
Single-phase reclosing
High voltage power network
Grid protection
Adaptive automatic reclosing
Single-phase fault
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123024020140
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Summary:Due to the extended length of transmission lines, electrical equipment is frequently exposed to various faults. To ensure a continuous supply of electricity to consumers and maintain the stability of the power grid, the implementation of reconnection schemes proves to be highly effective. In the case of transient faults, after the power is interrupted and the fault is cleared, the line can be re-energized through an automatic reconnection strategy. Upon the occurrence of a primary arc fault, the protection system is triggered, de-energizing the faulty phase by issuing commands to circuit breakers. However, due to the ionization of the air surrounding the defective phase, a secondary arc current remains at the fault location. Over time, as the insulation resistance of the arc path increases, the breakdown voltage rises, and after a few cycles, the secondary arc is fully extinguished. It is a common practice to reclose the circuit breaker after a predefined dead time; however, reclosing in the presence of permanent faults may compromise system stability. Therefore, it is essential to design a reclosing scheme capable of distinguishing between transient and permanent faults, as well as detecting the moment of secondary arc extinction. This paper aims to explore the potential of utilizing voltage phasor information from the transmission line's sending end to identify fault types and the moment of secondary arc extinction. To achieve this, various structural of the transmission line will be considered. The proposed network will be simulated using PSCAD, and the results will be analyzed accordingly.
ISSN:2590-1230

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