Mechanisms of voids formation during cooldown and freezing of lithium in SP-100 type systems

Abstract

The mechanisms of void formation during the cooldown and freezing of lithium coolant within the primary loop of SP‐100 type systems are investigated. These mechanisms are: (a) homogeneous nucleation, (b) heterogeneous nucleation, (c) normal segregation of helium gas dissolved in liquid lithium, and (d) shrinkage of lithium during freezing. To evaluate the void formation potential due to segregation, a numerical scheme that couples the freezing and mass diffusion processes in both the solid and liquid regions is developed. The results indicated that the formation of He bubbles is unlikely by either homogeneous or heterogeneous nucleation during the cooldown process. However, homogeneous nucleation of He bubbles following the segregation of dissolved He in liquid Lithium ahead of the solid‐liquid interface is likely to occur. Results also show that total volume of He void is insignificant when compared to that of shrinkage voids.