Title :
Faults detection and mitigation in excitation control of synchronous machines in large-scale power grids
Author :
Aldeen, M. ; Saha, S. ; Evans, R.J.
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Melbourne, Melbourne, VIC, Australia
Abstract :
This paper presents a new decentralised fault detection and mitigation system for excitation control systems used in synchronous generators in power grids. The system detects and diagnoses faults in the basic components of the excitation control systems with high accuracy and in almost real time using fuzzy set theory. Once a fault is diagnosed, a mitigation action follows, where the signal out of the faulty component is replaced by an alternative signal generated by the fault mitigation system. The mitigation action ensures that the field excitation voltage and thus the terminal voltage of the affected generator are controlled in a way that pre-fault stability of the grid is maintained. The accuracy and effectiveness of the proposed scheme are verified through case studies performed on the IEEE 30 bus test system.
Keywords :
IEEE standards; fault diagnosis; fuzzy set theory; power grids; power system stability; synchronous generators; IEEE 30 bus test system; fault detection; fault mitigation; field excitation voltage; fuzzy set theory; large-scale power grid stability; synchronous generator; synchronous machine excitation control; terminal voltage; Circuit faults; Fault detection; Fuzzy logic; Generators; Regulators; Transducers; Voltage control; excitation system; fault detection; fault mitigation; fuzzy set; over and under excitation;
Conference_Titel :
GCC Conference and Exhibition (GCCCE), 2015 IEEE 8th
Conference_Location :
Muscat
DOI :
10.1109/IEEEGCC.2015.7060034
