Some Considerations in the CANFLEX-NU Fuel Design

The CANDU Flexible-natural uranium (CANFLEX-NU) fuel bundle is being developed as the next logical evolution of CANDU fuel. Several design details of the CANFLEX bundle differ from the current 37-element fuel bundle. For example, the CANFLEX bundle uses buttons that enhance critical heat flux, smaller element diameters, and thinner sheaths. These changes contribute to the many advantages offered by the CANFLEX bundle. Nonetheless, the impact of these modified parameters on fuel failure mechanisms must be examined. For example, smaller diameter may lead to increased potential for flow-induced vibration and fatigue. Similarly, thinner sheaths may potentially lead to increased likelihood of collapse of the sheath into concentrated axial gap in the element due to the coolant pressure. Likewise, thin sheath and altered pellet dimensions may also potentially influence the defect threshold for stress-corrosion cracking during power ramps. The fatigue behaviour of the element may be different from the standard 37-element bundle under the condition of the significant number of power cycles. As part of the design verification of the CANFLEX bundle, the above failure mechanisms were analysed using well-established methods with reasonable support from relevant experiments or operating experience. As the analysis results show, the CANFLEX-NU fuel bundle is expected to exhibit excellent integrity during its lifetime in the reactor.