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Transport modeling in performance assessments for the Yucca Mountain disposal system for spent nuclear fuel and high-level radioactive waste

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  • Rechard, Rob P.
  • Arnold, Bill W.
  • Robinson, Bruce A.
  • Houseworth, James E.

Abstract

This paper summarizes modeling of radionuclide transport in the unsaturated and saturated zone conducted between 1984 and 2008 to evaluate feasibility, viability, and assess compliance of a repository for spent nuclear fuel and high-level radioactive waste at Yucca Mountain, Nevada. One dimensional (1-D) transport for a single porosity media without lateral dispersion was solved in both the saturated zone (SZ) and unsaturated zone (UZ) for the first assessment in 1984 but progressed to a dual-porosity formulation for the UZ in the second assessment in 1991. By the time of the viability assessment, a dual-permeability transport formulation was used in the UZ. With the planned switch to a dose performance measure, individual dose from a drinking water pathway was evaluated for the third assessment in 1993 and from numerous pathways for the viability assessment in 1998 and thereafter. Stream tubes for transport in the SZ were initially developed manually but progressed to particle tracking in 1991. For the viability assessment, particle tracking was used to solve the transport equations in the 3-D UZ and SZ flow fields. To facilitate calculations, the convolution method was also used in the SZ for the viability assessment. For the site recommendation in 2001 and licensing compliance analysis in 2008, the 3-D transport results of the SZ were combined with 1-D transport results, which evaluated decay of radionuclides, in order to evaluate compliance with groundwater protection requirements. Uncertainty in flow within the unsaturated and saturated zone was generally important to explaining the spread in the individual dose performance measure.

Suggested Citation

  • Rechard, Rob P. & Arnold, Bill W. & Robinson, Bruce A. & Houseworth, James E., 2014. "Transport modeling in performance assessments for the Yucca Mountain disposal system for spent nuclear fuel and high-level radioactive waste," Reliability Engineering and System Safety, Elsevier, vol. 122(C), pages 189-206.
  • Handle: RePEc:eee:reensy:v:122:y:2014:i:c:p:189-206
    DOI: 10.1016/j.ress.2013.06.031
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    References listed on IDEAS

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    1. A. B. Kersting & D. W. Efurd & D. L. Finnegan & D. J. Rokop & D. K. Smith & J. L. Thompson, 1999. "Migration of plutonium in ground water at the Nevada Test Site," Nature, Nature, vol. 397(6714), pages 56-59, January.
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    Cited by:

    1. François Diaz-Maurin & Rodney C. Ewing, 2018. "Mission Impossible? Socio-Technical Integration of Nuclear Waste Geological Disposal Systems," Sustainability, MDPI, vol. 10(12), pages 1-39, November.
    2. Suh, Jung Woo & Sohn, So Young & Lee, Bo Kyeong, 2020. "Patent clustering and network analyses to explore nuclear waste management technologies," Energy Policy, Elsevier, vol. 146(C).

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