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    Comparison of CANDU Fuel Bundle Finite Element Model with Unirradiated Mechanical Load Experiments

    Published: Jan 2010

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    A requirement of spent nuclear fuel is to maintain its structural integrity at all times to enable its safe and efficient handling during storage, transportation, and placement in a deep geological repository. In Canada, commercial spent fuel is currently stored in light water pools for about ten years before being transferred to dry storage where storage may extend up to 100 years. Investigations on the fuel structural integrity evolution during dry storage are being performed for spent CANDU fuel bundles. A CANDU nuclear fuel bundle is a cylindrical assembly approximately 0.1 m in diameter and 0.5 m in length made of 28 or 37 fuel elements held together by welding two endplates at both ends. The welds have a circular notch of less than 10 μm diameter. Significant hydraulic, mechanical, and thermal loads during bundle irradiation in the reactor may lead to bundle deformation, which when coupled with the sharp weld notch can result in significant stress enhancement at the notch tip and possibly activate delayed hydride cracking (DHC) during dry storage. To better understand the stress levels in CANDU fuel during dry storage, a finite element model of CANDU fuel bundles is under development. The stress distribution in the bundle and the stress intensity factor at each weld notch can be evaluated by the model for the spent fuel geometry and dry storage conditions. This paper discusses the agreement between the finite element model and validation experiments using unirradiated 28-element CANDU fuel bundles tested in the elastic and plastic regime.


    finite element modeling, CANDU fuel, spent fuel storage

    Author Information:

    Lampman, Timothy J.
    AMEC NSS, Toronto, Ontario

    Popescu, Adrian
    AMEC NSS, Toronto, Ontario

    Freire-Canosa, Jose
    Nuclear Waste Management Organization, Toronto, Ontario

    Committee/Subcommittee: E10.07

    DOI: 10.1520/STP49014S