Particle Methods in Computational Fluid Dynamics

Abstract: Particle methods in computational fluid dynamics (CFD) are numerical tools for the solution of the equations of fluid dynamics, obtained by replacing the fluid continuum with a finite set of particles. One of the key attributes of particle methods is that pure advection is treated exactly. The convection of properties eases the solution of multi‐material problems, simplifying the detection of interfaces. The use of particles also allows to bridge the gap between the continuum and fragmentation in a natural way… Show more

“…These findings can help better understand the system of interest. CFD results can be used to demonstrate how a piece of equipment works, how to troubleshoot problems, optimize performance, and design new equipment [1][2][3]. CFD simulations have been proposed for filtration applications such as filtration in fibrous media [4][5][6] and particulate filters [7], reactor modeling [8][9][10], colloids deposition in bidimensional [11], and three-dimensional porous media [12], to name a few.…”

Involving Particle Technology in Computational Fluid Dynamics Research: A Bibliometric Analysis

“…These findings can help better understand the system of interest. CFD results can be used to demonstrate how a piece of equipment works, how to troubleshoot problems, optimize performance, and design new equipment [1][2][3]. CFD simulations have been proposed for filtration applications such as filtration in fibrous media [4][5][6] and particulate filters [7], reactor modeling [8][9][10], colloids deposition in bidimensional [11], and three-dimensional porous media [12], to name a few.…”

Involving Particle Technology in Computational Fluid Dynamics Research: A Bibliometric Analysis

retQSS: A novel methodology for efficient modeling and simulation of particle systems in reticulated geometries