An Adaptive Reclosure Scheme for Parallel Transmission Lines With Shunt Reactors

A new reclosure scheme applied to parallel transmission lines with shunt reactors is proposed to improve the adaptability of the autoreclosure. Detailed analysis of the fault phase voltage is performed to derive the criteria to distinguish the temporary fault from the permanent fault. For different types of ground faults, the integral of the fault phase´s recovery voltage is used to identify the permanent grounded faults. For different types of cross-line ungrounded faults, the integral of the β modulus of the fault phase´s recovery voltage is used to identify the permanent cross-line ungrounded faults. Besides, the phase reclosure sequence principle is used for all fault types. The performance of the proposed scheme is verified by the digital and analog simulation test for a 500-kV parallel transmission line with shunt reactors for several cases on different fault types and fault conditions. The Electromagnetic Transients Program-based and physical analog simulation results show that the proposed scheme is effective.