Colloidal magnetic gels for the decontamination of limited access metallic surfaces

Handling nuclear metallic waste is a crucial issue for the nuclear industry, notably by using adapted decontamination processes. Colloidal gels can be applied by spraying for nuclear decontamination of large and plane metallic surfaces, such as walls or floors. However, this implementation mode limi...

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Bibliographic Details
Published in:Environmental technology & innovation 2024-08, Vol.35, p.103688, Article 103688
Main Authors: Pochat-Cottilloux, Hippolyte, Frances, Fabien, Girard, Luc, Rivonkar, Aditya, Gossard, Alban
Format: Article
Language:English
Subjects:
Chemical Sciences
Decontamination
environmental technology
Ferromagnetic particles
Gel
gels
industry
magnetic materials
magnetism
magnetite
Metal
Nuclear
Nuclear Experiment
Physics
stainless steel
storage time
viscosity
wastes
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Summary:Handling nuclear metallic waste is a crucial issue for the nuclear industry, notably by using adapted decontamination processes. Colloidal gels can be applied by spraying for nuclear decontamination of large and plane metallic surfaces, such as walls or floors. However, this implementation mode limits their use for the decontamination of inaccessible or complex geometries surfaces. For that purpose, decontamination magnetic gels have been formulated by incorporating magnetite particles in a pre-synthesized colloidal gel able to decontaminate stainless steel. Such gels can thus be attracted by a magnet, allowing remote application to surfaces with limited access. The presence of magnetite particles does not influence the inherent decontamination properties of the gel, but plays a significant role on the spreading properties by increasing the gel viscosity. Then, a linear relationship between the gel thickness and the decontamination possibilities has been highlighted. Furthermore, as the magnetite particles dissolve in the gel with time, spreading properties, and consequently the decontamination properties, are modified. Finally, a formulation compromise has to be found for a long-term storage of the gels, while maintaining their efficiency. [Display omitted] •Magnetite particles are added to a decontaminating gel to make it magnet-responsive.•Decontamination magnetic gel can be spread with a magnet through the metallic surface.•After drying, the solid flakes formed by the gel can also be recovered using a magnet.•There is a direct link between gel layer thickness and metal corrosion efficiency.
ISSN:2352-1864
2352-1864
DOI:10.1016/j.eti.2024.103688