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Stand-off Nuclear Reactor Monitoring with Neutron Detectors at the McMaster Nuclear Reactor

Nuclear reactor safeguards are how the peaceful use of nuclear material is ensured.
Safeguards consist of a broad array of techniques, such as video surveillance and tamperproof
seals, to ensure that nuclear material is not diverted from declared activities.
Safeguards research is conducted to ensure that safeguards techniques are capable of
meeting the challenges posed by future reactor designs and operating conditions. One
such technique that has broad applicability to novel reactor designs, including small
modular reactors, is the method of standoff neutron detection using large area neutron
detectors. In this method, neutron detectors are employed to detect neutrons which
have escaped from the core, which are representative of the flux inside the core. Because
the flux required to achieve a given power is dependent on the isotopes being fissioned,
due to their different cross sections and fission energies, the state of the core can be
assessed using the neutron detectors. Prior research has demonstrated that it is possible
to correlate kilogram changes in fissile inventory using neutron detectors by employing
the standoff neutron detector method. This work at the McMaster nuclear reactor details
additional experiments to support prior work.
First, the apparatus and procedure to collect neutron detector data are detailed, along
with persistent challenges to the collection. Next, simulations using the OSCAR-5 code
to determine the fissile inventory are described. These two sections are subsequently
combined, to compare changes in detector signal to the simulated core inventory. It
was found that the uncertainty was too large to correlate changes in detector signal with
changes in core inventory. Lastly, a method of detecting malicious interference is derived
and tested. / Thesis / Master of Applied Science (MASc)

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/28199
Date January 2022
CreatorsBarron, Philip James
ContributorsBuijs, Adriaan, Engineering
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish
TypeThesis

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