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Implementation and Comparison of Contact Models Within PIRAT for Nuclear Reactivity Control Systems

Matt Bonney Orcid Logo, Maxime Zabiégo

Journal of Vibration and Acoustics, Volume: 142, Issue: 5

Swansea University Author: Matt Bonney Orcid Logo

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DOI (Published version): 10.1115/1.4046955

Abstract

The reactivity control system is a vital safety system for a nuclear reactor. One of the most challenging aspects in the design of these systems is the operation during critical situations, in particular during earthquakes to safely shut-down the reactor. To study these situations, the toolbox pytho...

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Published in: Journal of Vibration and Acoustics
ISSN: 1048-9002 1528-8927
Published: ASME International 2020
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URI: https://cronfa.swan.ac.uk/Record/cronfa65037
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Abstract: The reactivity control system is a vital safety system for a nuclear reactor. One of the most challenging aspects in the design of these systems is the operation during critical situations, in particular during earthquakes to safely shut-down the reactor. To study these situations, the toolbox python Implementation for Reliability Assessment Tools (PIRAT) is used to model two types of excitation: single frequency and realistic. The main focus of this work is the comparison of the implementation of the contact models used to describe the interaction between the subsystems. For the dynamic tool in PIRAT (dynamic Euler–Bernoulli for seismic event (DEBSE)), this is done with a two-stage linear spring or Lankarani and Nikravesh-based models. For the sine excitation, the results show four distinct response types with the maximum displacement varying between the models. Low-frequency excitation showed little variance while higher frequency excitation showed large variations. The realistic excitation, however, did not show these variations and showed nearly identical results for the contact models tested. This gives confidence in the simulations since the user selected contact model did not greatly affect the simulation results for a realistic excitation.
Keywords: Dynamics, modal analysis, non-linear vibration
College: Faculty of Science and Engineering
Issue: 5

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