PArallel, Robust, Interface Simulator (PARIS)

TL;DR

Paris (PArallel, Robust, Interface Simulator) is a parallel finite volume code designed for simulating immiscible multifluid flows using one-fluid formulation, interface tracking methods, and parallel computing techniques.

Contribution

The paper introduces Paris, a new parallel finite volume code that combines one-fluid formulation with interface tracking methods for robust multiphase flow simulation.

Findings

Successfully simulates a wide range of multifluid flows

Parallelized using MPI for large-scale simulations

Integrates FT and VOF interface tracking methods

Abstract

Paris (PArallel, Robust, Interface Simulator) is a finite volume code for simulations of immiscible multifluid or multiphase flows. It is based on the "one-fluid" formulation of the Navier-Stokes equations where different fluids are treated as one material with variable properties, and surface tension is added as a singular interface force. The fluid equations are solved on a regular structured staggered grid using an explicit projection method with a first-order or second-order time integration scheme. The interface separating the different fluids is tracked by a Front-Tracking (FT) method, where the interface is represented by connected marker points, or by a Volume-of-Fluid (VOF) method, where the marker function is advected directly on the fixed grid. Paris is written in Fortran95/2002 and parallelized using MPI and domain decomposition. It is based on several earlier FT or VOF codes such as Ftc3D, Surfer or Gerris. These codes and similar ones, as well as Paris, have been used to simulate a wide range of multifluid and multiphase flows.