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Nuclear Criticality Safety
NCSD provides communication among nuclear criticality safety professionals through the development of standards, the evolution of training methods and materials, the presentation of technical data and procedures, and the creation of specialty publications. In these ways, the division furthers the exchange of technical information on nuclear criticality safety with the ultimate goal of promoting the safe handling of fissionable materials outside reactors.
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2024 ANS Annual Conference
June 16–19, 2024
Las Vegas, NV|Mandalay Bay Resort and Casino
Standards Program
The Standards Committee is responsible for the development and maintenance of voluntary consensus standards that address the design, analysis, and operation of components, systems, and facilities related to the application of nuclear science and technology. Find out What’s New, check out the Standards Store, or Get Involved today!
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Latest News
Can hydrogen be the transportation fuel in an otherwise nuclear economy?
Let’s face it: The global economy should be powered primarily by nuclear power. And it probably will by the end of this century, with a still-significant assist from renewables and hydro. Once nuclear systems are dominant, the costs come down to where gas is now; and when carbon emissions are reduced to a small portion of their present state, it will become obvious that most other sources are only good in niche settings. I mean, why use small modular reactors to load-follow when they can just produce that power instead of buffering it?
Paula C. Souza, André S. Aguiar, Adino Heimlich, Celso M. F. Lapa, Fernando Lamego
Nuclear Technology | Volume 207 | Number 12 | December 2021 | Pages 1873-1888
Technical Paper | doi.org/10.1080/00295450.2020.1846986
Articles are hosted by Taylor and Francis Online.
In the early days of nuclear energy in Brazil, a reactor named Argonaut, designed at Argonne National Laboratory, reached criticality at the Institute of Nuclear Engineering (IEN). The presence of a nuclear research facility at the campus of Federal University of Rio de Janeiro is still a cause of concern with regard to the radiological safety of the surrounding community, even though this facility has been securely operating for more than 50 years. In addition, the risk premium paid to IEN workers has also been disputed by the National Office of Account Control. Thus, the aim of this study is to assess the radiological impact and potential risk from Argonaut reactor accidental releases. A recent accident scenario reassessment concluded that severe physical damage of the core after reactor shutdown should be the emergency situation with the greatest potential risk among feasible postulated accidents. The damage caused by failure of a handling crane dropping concrete shielding covers (each weighing 2.5 tons) on the core would lead to breaking of the aluminum coating and the nuclear fuel plates with their release to the reactor hall. This paper evaluates the short-term effective dose rates by inhalation and plume immersion for workers and members of the public, which would be induced by inventory partial release to the atmosphere. The conclusion is that potential risk remains above 1/10 of the limit of annual dose for workers while it stays below the transient levels for members of the public in unrestricted areas.