Hydrogen dioxide-boosted acid elution of radionuclides from high level vitrified wastes

[Display omitted] •A wet chemical elution was used to extract radionuclides from nuclear waste glass.•H2O2 largely enhanced the elution capability of HNO3 under mild conditions.•The insoluble Zr was well extracted by H2SO4 solution through coordination.•The PGMs were extracted using liquid Sn extrac...

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Bibliographic Details
Published in:Separation and purification technology 2021-12, Vol.279, p.119713, Article 119713
Main Authors: Wen, Yanli, Xu, Lihong, Lin, Peng, Li, Kunfeng, Li, Lili, Sun, Jiliang, Wang, Sheng, Xu, Zhanglian
Format: Article
Language:English
Subjects:
Acidic elution
High-level vitrified waste
Hydrogen dioxide
Radionuclides
Recovery
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Summary:[Display omitted] •A wet chemical elution was used to extract radionuclides from nuclear waste glass.•H2O2 largely enhanced the elution capability of HNO3 under mild conditions.•The insoluble Zr was well extracted by H2SO4 solution through coordination.•The PGMs were extracted using liquid Sn extraction under reductive heat-treatment. The extraction of radionuclides from high-level vitrified wastes (HLVWs) is of importance for eventual harmlessization of nuclear wastes by nuclear transmutation, but remains great challenges. Here, we showed an efficient elution method of various radionuclides from the simulated HLVWs with chemical durability using the mixed H2O2/HNO3 solutions under mild conditions. The introduction of H2O2 largely improved the elution capability of HNO3 solution toward radionuclides contained in HLVWs. Most elements including glass main components (except the insoluble Si) and the simulated radionuclides (except for Zr and platinum group metals (PGMs: Pd, Ru, Rh)) were significantly leached from the HLVWs with the mixed solution of 1 ml H2O2/1 M HNO3 at 90 °C for 5 h. The insoluble Zr and PGMs were further extracted by H2SO4 solution and liquid tin extraction, respectively. Through optimization of the extraction conditions, the proposed wet chemical elution method and high temperature metallurgy to extract the elements from the HLVWs would open a new avenue to reduce the radioactivity and lifetime of the long-lived fission products (LLFPs) and minor actinides (MAs) in HLVWs through advanced nuclear transmutation in future. It also provides a feasible method for the reuse of some valuable radionuclides in HLVWs.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2021.119713