Developments in Core-Barrel Motion Monitoring and Applications to the Ringhals PWR Units
Journal article, 2016

Core-barrel motion (CBM) surveillance and diagnostics, based on the amplitude of the peaks of the normalized auto power spectral densities (APSDs) of the ex-core neutron detectors, have been performed and continuously developed in Sweden and were applied for monitoring of the three PWR units, Ringhals 2 to 4. From 2005, multiple measurements were taken during each fuel cycle, and these revealed a periodic behavior of the 8-Hz peak of the beam-mode motion: the amplitude increases within the cycle and returns to a lower value at the beginning of the next cycle. The work reported in this paper aims to clarify the physical reason for this behavior. A combination of a mode separation method in the time domain and a nonlinear curve fitting procedure of the frequency spectra revealed that two types of vibration phenomena contribute to the beam-mode peak. The lower frequency peak around 7 Hz in the ex-core detector APSDs corresponds to the CBM, whose amplitude does not change during the cycle. The higher frequency peak around 8 Hz arises from the individual vibrations of the fuel assemblies, and its amplitude increases monotonically during the cycle. This paper gives an account of the work that has been made to veri,b, the above hypothesis.

PWR

ex-core detectors

core-barrel vibrations

Author

Imre Pazsit

Chalmers, Physics, Subatomic and Plasma Physics

C. Montalvo

H. Nylen

Thomas Andersson

A. Hernandez-Solis

Petty Bernitt Cartemo

Chalmers, Physics, Subatomic and Plasma Physics

Nuclear Science and Engineering

0029-5639 (ISSN) 1943748x (eISSN)

Vol. 182 2 213-227

Subject Categories

Subatomic Physics

DOI

10.13182/NSE15-14

More information

Latest update

3/2/2022 6