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Fault Detection and Isolation in Simulated Batch Operation of Fine Motion Control Rod Drives.

Authors :
Ifeanyi, Ark O.
Dos Santos, Daniel
Saxena, Abhinav
Coble, Jamie
Source :
Nuclear Technology. Apr2024, p1-17. 17p. 17 Illustrations.
Publication Year :
2024

Abstract

AbstractControl rods and elements manage the power distribution in nuclear reactors through the motion of banks of rods distributed throughout the core. These positional changes are achieved through the actuation of fine motion control rod drive (FMCRD) mechanisms. In the BWRX-300 design by GE-Hitachi, this mechanism is electrically driven by a servomotor that allows for high-precision control of power outputs. Under operational transients, such as load-following, accurate and precise operation of these servomotors is necessary over long periods of time, so they are key maintenance targets to maintain availability and operational flexibility. Swiftly and precisely identifying faults in the drive mechanisms will support predictive maintenance and reduced costs. This paper used three different types of simulated faults to test the fault detectability of principal component analysis (PCA) when considering the simulated operations of banks of control rods and their associated servomotors. These faults were stator short-circuit faults, ball screw jam faults, and ball screw wear faults. Torque and position were monitored in the simulation. The position signal was insufficient to detect mechanical faults. Torque signals for each servomotor in the bank of rods undergoing multiple position demand changes were projected to a reduced dimensional space via PCA. Q and T2 statistics were employed for anomaly detection. Using this approach, all faults were detected, and the anomalies were isolated to the faulty FMCRD mechanism. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00295450
Database :
Academic Search Index
Journal :
Nuclear Technology
Publication Type :
Academic Journal
Accession number :
176624280
Full Text :
https://doi.org/10.1080/00295450.2024.2323260