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Characterization and mapping of the neutron fields around Bruce Power's 177Lu isotope production system.
Hanu, Andrei R; Atanackovic, Jovica; Boyd, Craige; Johnston, Eric M; Waker, Anthony J.
Affiliation
  • Hanu AR; Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada; Bruce Power, Tiverton, Ontario, Canada. Electronic address: andrei.hanu@brucepower.com.
  • Atanackovic J; Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada; Ontario Power Generation, Whitby, Ontario, Canada.
  • Boyd C; Department of Energy and Nuclear Engineering, Ontario Tech University, Oshawa, Ontario, Canada.
  • Johnston EM; Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada; Nuclear Innovation Institute, Port Elgin, Ontario, Canada.
  • Waker AJ; Department of Energy and Nuclear Engineering, Ontario Tech University, Oshawa, Ontario, Canada.
Appl Radiat Isot ; 208: 111284, 2024 Jun.
Article in En | MEDLINE | ID: mdl-38492278
ABSTRACT
Bruce Power operates a first-of-its-kind isotope production system (IPS) that enables continuous production of 177Lu within Canada Deuterium Uranium (CANDU) commercial power reactors. Located on the reactivity mechanisms deck of Unit 7, just outside of reactor containment but in close proximity to the primary heat transport (PHT) pumps, this facility offers unique advantages for 177Lu production. However, employees working in this area encounter a radiation hazard which consists primarily of photoneutrons. These originate from the base of the PHT pumps and are only present when the reactor is operating. This study evaluates neutron exposure at Bruce Power's IPS by using a nested neutron spectrometer (NNS) to determine the neutron energy spectra and absolute dosimetric quantities such as the ambient dose equivalent, H*(10). The results from the NNS are then compared to surveys performed by a portable neutron rem meter (Model NP-2 by Nuclear Research Corporation), routinely used by Bruce Power staff for workplace monitoring. While the Model NP-2 generally showed consistent results across locations, a 50% dose correction factor was identified when operators were harvesting 177Lu from the IPS. This finding highlights an opportunity to reduce the neutron dose that is assigned to operators when producing 177Lu.
Key words

Full text: 1 Database: MEDLINE Language: En Journal: Appl Radiat Isot Journal subject: MEDICINA NUCLEAR / SAUDE AMBIENTAL Year: 2024 Type: Article

Full text: 1 Database: MEDLINE Language: En Journal: Appl Radiat Isot Journal subject: MEDICINA NUCLEAR / SAUDE AMBIENTAL Year: 2024 Type: Article