Silver iodide sodalite – wasteform / HIP canister interactions and aqueous durability
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Date
2019-04-15
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
The use of silver zeolite for the capture of radioiodine from the vapour phase, followed by thermal conversion now appears to be the most direct route by which a sodalite wasteform can be formed. In addition, consolidation by hot-isostatic pressing (HIP) in sealed canisters has many significant advantages over conventional methods such as sintering or melting these candidate wasteforms. The choice of HIP canister material is important as reaction at the wasteform/HIP canister interface results in an interaction zone that can potentially produce detrimental phases, wasteform porosity and canister thinning. This paper builds on a previous study that demonstrated that iodine could be captured from the vapour phase using silver exchanged zeolite and converted to sodalite by HIPing in Fe HIP canisters. The Cu or Ni metal HIP canisters used in this work result in an ∼100–200 μm thick local interaction zone with a variety of chemistries. Durability studies were conducted using a variety of reducing conditions and clearly demonstrated the redox sensitivity of silver sodalite. While the silver sodalite wasteform produced is, like the popular AgI-based wasteforms, highly leach resistant to leaching by deionised water it was unstable under highly reducing conditions, which are likely to occur in most geological disposal facilities. Post leaching characterisation revealed the redeposition of AgI and the formation of an aluminosilicate alteration layer under some leaching conditions. Appropriate precautions are required should a silver sodalite wasteform for iodine immobilisation be exposed to reducing groundwater conditions. Crown Copyright © 2019 Published by Elsevier B.V.
Description
Keywords
Silver iodides, Zeolites, Waste forms, Containers, Hot pressing, Durability, Ground water, Leaching
Citation
Maddrell, E. R., Vance, E. R., Grant, C., Aly, Z., Stopic, A., Palmer, T., Harrison, J. J. & Gregg, D. J. (2019). Silver iodide sodalite–Wasteform/HIP canister interactions and aqueous durability. Journal of Nuclear Materials, 517, 71-79. doi:10.1016/j.jnucmat.2019.02.002