Modeling glass degradation and release of radionuclides from vitrified waste for performance assessment simulations

Finsterle, Stefan; McLachlan, Jeffrey R.; Hannon, Jr., Michael J.; Sloane, Jesse; Abergel, Rebecca J.; Peterson, Per F.

doi:10.3389/fnuen.2025.1729916

Modeling glass degradation and release of radionuclides from vitrified waste for performance assessment simulations

Journal Article · Mon Jan 05 00:00:00 EST 2026 · Frontiers in Nuclear Engineering

DOI:https://doi.org/10.3389/fnuen.2025.1729916· OSTI ID:3020545

Finsterle, Stefan ^[1]; McLachlan, Jeffrey R. ^[2]; Hannon, Jr., Michael J. ^[3]; Sloane, Jesse ^[4]; Abergel, Rebecca J. ^[2]; Peterson, Per F. ^[2]

Finsterle GeoConsulting, LLC, Kensington, CA (United States)
University of California, Berkeley, CA (United States)
Hannon Clean Energy, LLC, Bloomington, IN (United States)
Deep Isolation Nuclear, Inc., Berkeley, CA (United States)

The release of radionuclides initially encapsulated in a slowly degrading solid waste form and contained in an eventually corroding canister defines the source term for numerical simulations for the assessment of a geologic repository for high-level radioactive waste. While the details of waste degradation, canister corrosion, and dissolution and mobilization of the radionuclides in pore water include complex chemical reaction and transport processes that are coupled to the thermal, hydrological, microbiological, and mechanical conditions in the repository, the source-term model suitable for use in a numerical performance assessment model should be a defensible abstraction of these mechanisms. We developed a radiological source-term model and implemented it into a non-isothermal flow and transport simulator. While the proposed source-term model is applicable to various waste forms, canister systems, and disposal concepts, we specifically considered radionuclide releases from vitrified high-level waste placed in a cylindrical canister disposed in a deep vertical borehole repository. In this model, waste degradation is a function of temperature, and it can be adjusted to evaluate the influence of and propagate uncertainties in pH, passivation reactions, and chemical conditions as well as geometrical factors. The time-dependent, congruent release of safety-relevant radionuclides present in the decaying inventory is then calculated. Finally, the radionuclides are mobilized by diffusive and advective transport according to the thermo-hydraulic conditions prevailing in the near field of the repository, from where they migrate through the geosphere to the accessible environment. We examine the influence of the source-term model’s parameters on performance assessment calculations through sensitivity and uncertainty propagation analyses, identifying influential factors and confirming the upper bound of their impact. These considerations align with the overarching goal of repository design, which is to demonstrate that engineered and natural barriers can collectively delay radionuclide migration for timescales far exceeding human planning, thereby providing multiple, redundant barriers against environmental contamination.

View Accepted Manuscript (DOE)

Research Organization:: Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)

Sponsoring Organization:: USDOE Advanced Research Projects Agency - Energy (ARPA-E); USDOE Office of Science (SC)

Grant/Contract Number:: AC02-05CH11231; AR0001621

OSTI ID:: 3020545

Journal Information:: Frontiers in Nuclear Engineering, Journal Name: Frontiers in Nuclear Engineering Vol. 4; ISSN 2813-3412

Publisher:: Frontiers Media S.A.Copyright Statement

Country of Publication:: United States

Language:: English

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Modeling glass degradation and release of radionuclides from vitrified waste for performance assessment simulations

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