Surface tension effects on the behavior of a cavity growing, collapsing, and rebounding near a rigid wall

Surface tension effects on the behavior of a pure vapor cavity or a cavity containing some noncondensible contents, which is growing, collapsing, and rebounding axisymmetrically near a rigid wall. are investigated numerically by the boundary integral method for different values of dimensionless stand-off parameter gamma, buoyancy parameter delta, and surface tension parameter beta. It is found that at the late stage of the collapse, if the resultant action of the Bjerknes force and the buoyancy force is not small, surface tension will not have significant effects on bubble behavior except that the bubble collapse time is shortened and the liquid jet becomes wider. If the resultant action of the two force is small enough. surface tension will have significant and in some cases substantial effects on bubble behavior, such as changing the direction of the liquid jet making a new liquid jet appear, in some cases preventing the bubble from rebound before jet impact. and in other cases causing the bubble to rebound or even recollapse before jet impact. The mechanism of surface tension efects on the collapsing behavior of a cavity has been analyzed. The mechanisms of some complicated phenomena induced by surface tension effects are illustrated by analysis of the computed velocity fields and pressure contours of the liquid flow outside the bubble at different stages of the bubble evolution.