Experimental study on bubble dynamics in narrow rectangular blistering channels – part Ⅱ: Bubble departure

After the cladding blister of the plate-shaped fuel element occurs, the bubble dynamics in the coolant channel will change, thereby affecting the thermal and hydraulic characteristics of the reactor core. Currently, there is almost no research on bubble dynamics within narrow rectangular blistering channels. As part Ⅱ of the submitted article, this article obtained experimental data on bubble departure diameter and bubble departure frequency based on visualization experiments of narrow rectangular blistering channels. The departure characteristics of rapid condensation bubbles and sliding bubbles were analyzed separately. The geometric structure and thermal parameters were analyzed for their effects on bubble departure diameter and bubble departure frequency. Based on the current experimental data, the existing empirical correlations were evaluated, and it was found that they cannot accurately predict the bubble departure characteristics under blister conditions. The new correlations were proposed for bubble departure diameter and bubble departure frequency applicable to narrow rectangular blistering channels. The predictive ability of new correlations is superior to existing correlations. The accurate modification of the wall boiling model based on the blistering experimental mechanism and new empirical correlations is the direction of future work.