The diffuse interface models, part of the family of the front capturing methods, provide an
efficient and robust framework for the simulation of multi-species flows. They allow the …

A novel finite-volume interface (contact) capturing method is presented for simulation of multi-
component compressible flows with high density ratios and strong shocks. In addition, the …

A new, simple, and computationally efficient interface capturing scheme based on a diffuse
interface approach is presented for simulation of compressible multiphase flows. Multi-fluid …

In this paper we propose an interface sharpening technique for two-phase compressible-
flow simulations based on volume-of-fluid methods. The idea of sharpening the two-fluid …

Using the existing floor heating system, the radiant floor cooling system can be used as an
alternative to the conventional all-air cooling systems. In this paper, a numerical model for …

We describe a numerical method for modeling temperature-dependent fluid flow coupled to
heat transfer in solids. This approach to conjugate heat transfer can be used to compute …

A common attribute of capturing schemes used to find approximate solutions to the Euler
equations is a sub-linear rate of convergence with respect to mesh resolution. Purely …

This paper describes an approach for the numerical solution of time-dependent partial
differential equations in complex three-dimensional domains. The domains are represented …

Single fluid schemes that rely on an interface function for phase identification in
multicomponent compressible flows are widely used to study hydrodynamic flow …

A robust finite volume method for the solution of high-speed compressible flows in multi-
material domains involving arbitrary equations of state and large density jumps is presented …