Fluid flow applications can involve a number of coupled problems. One is the simulation of
free-surface flows, which require the solution of a free-boundary problem. Within this …

We present a conservative and consistent numerical method for solving the Navier–Stokes
equations in flow domains that may be separated by any number of material interfaces, at …

We propose a novel surface-only technique for simulating incompressible, inviscid and
uniform-density liquids with surface tension in three dimensions. The liquid surface is …

We present a method for performance-driven optimization of fluidic devices. In our approach,
engineers provide a high-level specification of a device using parametric surfaces for the …

The numerical simulation of surface tension is an active area of research in many different
fields of application and has been attempted using a wide range of methods. Our …

This paper presents a novel approach to simulating surface tension flow within a position-
based dynamics (PBD) framework. We enhance the conventional PBD fluid method in terms …

We propose a new Eulerian-Lagrangian approach to simulate the various surface tension
phenomena characterized by volume, thin sheets, thin filaments, and points using Moving …

We devise a novel surface-only approach for simulating the three dimensional free-surface
flow of incompressible, inviscid, and linearly magnetizable ferrofluids. A Lagrangian velocity …

We propose a novel three-way coupling method to model the contact interaction between
solid and fluid driven by strong surface tension. At the heart of our physical model is a thin …

We present an updated Lagrangian discretization of surface tension forces for the simulation
of liquids with moderate to extreme surface tension effects. The potential energy associated …