Thermodynamically consistent mesoscopic fluid particle model
- 24 September 2001
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review E
- Vol. 64 (4) , 046115
- https://doi.org/10.1103/physreve.64.046115
Abstract
We present a finite volume Lagrangian discretization of the continuum equations of hydrodynamics through the Voronoi tessellation. We then show that a slight modification of these discrete equations satisfies the first and second laws of thermodynamics. This is done by casting the model into the GENERIC structure. The GENERIC structure ensures thermodynamic consistency and allows for the introduction of correct thermal fluctuations in simple terms. In this way, we obtain a consistent discrete model for Lagrangian fluctuating hydrodynamics. Simulation results are presented that show the validity of the model for simulating hydrodynamic problems at mesoscopic scales.Keywords
This publication has 49 references indexed in Scilit:
- Dissipative Particle Dynamics with Energy Conservation: Heat ConductionInternational Journal of Modern Physics C, 1998
- Fluid particle modelPhysical Review E, 1998
- Dissipative particle dynamics with energy conservationEurophysics Letters, 1997
- Dissipative particle dynamics with energy conservationEurophysics Letters, 1997
- Static and dynamic properties of dissipative particle dynamicsPhysical Review E, 1997
- Fokker-Planck-Boltzmann equation for dissipative particle dynamicsEurophysics Letters, 1997
- Hydrodynamics from dissipative particle dynamicsPhysical Review E, 1995
- Statistical Mechanics of Dissipative Particle DynamicsEurophysics Letters, 1995
- Phase Separation in Bimodal Dispersions of Sterically Stabilized Silica ParticlesEurophysics Letters, 1993
- Simulating Microscopic Hydrodynamic Phenomena with Dissipative Particle DynamicsEurophysics Letters, 1992