Piyush Khadke scite author profile

In this article, a novel and accurate scheme for fault detection, classification and fault distance estimation for a fixed series compensated transmission line is proposed. The proposed scheme is based on artificial neural network (ANN) and metal oxide varistor (MOV) energy, employing Levenberg–Marquardt training algorithm. The novelty of this scheme is the use of MOV energy signals of fixed series capacitors (FSC) as input to train the ANN. Such approach has never been used in any earlier fault analysis algorithms in the last few decades. Proposed scheme uses only single end measurement energy signals of MOV in all the 3 phases over one cycle duration from the occurrence of a fault. Thereafter, these MOV energy signals are fed as input to ANN for fault distance estimation. Feasibility and reliability of the proposed scheme have been evaluated for all ten types of fault in test power system model at different fault inception angles over numerous fault locations. Real transmission system parameters of 3-phase 400 kV Wardha–Aurangabad transmission line (400 km) with 40 % FSC at Power Grid Wardha Substation, India is considered for this research. Extensive simulation experiments show that the proposed scheme provides quite accurate results which demonstrate complete protection scheme with high accuracy, simplicity and robustness.

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Analysis of shunt reactor energization at EHV substation and its effects on CT: A case study

Bedi

Patne

Khadke

et al. 2016

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Piyush Khadke

Digital impedance pilot relaying scheme for STATCOM compensated TL for fault phase classification with fault location

Pilot Relaying Scheme Based on Differential Admittance Concept for FSC-Compensated EHV Transmission Line

Fault Classification and Faulty Phase Selection Using Symmetrical Components of Reactive Power for EHV Transmission Line

A soft computing scheme incorporating ANN and MOV energy in fault detection, classification and distance estimation of EHV transmission line with FSC

Analysis of shunt reactor energization at EHV substation and its effects on CT: A case study

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