A new implicit surface tension implementation for interfacial flows

## Abstract We present an implementation of Hysing's (__Int. J. Numer. Meth. Fluids__ 2006; **51**:659–672) semi‐implicit method for treating surface tension, for finite volume models of interfacial flows. Using this method, the surface tension timestep restriction, which is often very stringent, c

In this communication a computational model for incompressible ¯ow with the eect of surface tension is brie¯y described. The formulation for calculating surface tension is developed based on a variational approach. It is assumed that the variations in surface energy, which may contribute to the ¯uid

In this paper a semi-implicit finite difference model for non-hydrostatic, free-surface flows is analyzed and discussed. It is shown that the present algorithm is generally more accurate than recently developed models for quasi-hydrostatic flows. The governing equations are the free-surface Navier -

A novel, fast formed drop technique is developed for measuring dynamic surface and interfacial tension of surfactant solutions. It employs the basis of the capillary pressure methods. A new way of formation of a fresh interface is the key point in the proposed technique. It is based on the fact that

A method is described for utilizing a top-loading balance, with a directional converter arm, in vertical-pull surface force measurements. The Padday rod-pull technique, the du Nou ¨y ring method, and the Wilhelmy plate method are utilized with rods, thin-walled tubes, wire rings, and plates either r