A review of vortex methods and their applications: From creation to recent advances
C Mimeau, I Mortazavi - Fluids, 2021 - mdpi.com
This review paper presents an overview of Vortex Methods for flow simulation and their
different sub-approaches, from their creation to the present. Particle methods distinguish …
different sub-approaches, from their creation to the present. Particle methods distinguish …
Multiscale flow simulations using particles
P Koumoutsakos - Annu. Rev. Fluid Mech., 2005 - annualreviews.org
▪ Abstract Flow simulations are one of the archetypal multiscale problems. Simulations of
turbulent and unsteady separated flows have to resolve a multitude of interacting scales …
turbulent and unsteady separated flows have to resolve a multitude of interacting scales …
PPM–A highly efficient parallel particle–mesh library for the simulation of continuum systems
This paper presents a highly efficient parallel particle–mesh (PPM) library, based on a
unifying particle formulation for the simulation of continuous systems. In this formulation, the …
unifying particle formulation for the simulation of continuous systems. In this formulation, the …
A Lagrangian particle level set method
SE Hieber, P Koumoutsakos - Journal of Computational Physics, 2005 - Elsevier
We present a novel particle level set method for capturing interfaces. The level set equation
is solved in a Lagrangian frame using particles that carry the level set information. A key …
is solved in a Lagrangian frame using particles that carry the level set information. A key …
Billion vortex particle direct numerical simulations of aircraft wakes
We present the Direct Numerical Simulations of high Reynolds numbers aircraft wakes
employing vortex particle methods. The simulations involve a highly efficient implementation …
employing vortex particle methods. The simulations involve a highly efficient implementation …
GPU accelerated simulations of bluff body flows using vortex particle methods
We present a GPU accelerated solver for simulations of bluff body flows in 2D using a
remeshed vortex particle method and the vorticity formulation of the Brinkman penalization …
remeshed vortex particle method and the vorticity formulation of the Brinkman penalization …
An analysis platform for multiscale hydrogeologic modeling with emphasis on hybrid multiscale methods
One of the most significant challenges faced by hydrogeologic modelers is the disparity
between the spatial and temporal scales at which fundamental flow, transport, and reaction …
between the spatial and temporal scales at which fundamental flow, transport, and reaction …
Simulations of (an) isotropic diffusion on curved biological surfaces
We present a computational particle method for the simulation of isotropic and anisotropic
diffusion on curved biological surfaces that have been reconstructed from image data. The …
diffusion on curved biological surfaces that have been reconstructed from image data. The …
Discretization correction of general integral PSE Operators for particle methods
B Schrader, S Reboux, IF Sbalzarini - Journal of Computational Physics, 2010 - Elsevier
The general integral particle strength exchange (PSE) operators [JD Eldredge, A. Leonard,
T. Colonius, J. Comput. Phys. 180 (2002) 686–709] approximate derivatives on scattered …
T. Colonius, J. Comput. Phys. 180 (2002) 686–709] approximate derivatives on scattered …
MRAG-I2D: Multi-resolution adapted grids for remeshed vortex methods on multicore architectures
D Rossinelli, B Hejazialhosseini, W van Rees… - Journal of …, 2015 - Elsevier
Abstract We present MRAG-I2D, 1 an open source software framework, for multiresolution
simulations of two-dimensional, incompressible, viscous flows on multicore architectures …
simulations of two-dimensional, incompressible, viscous flows on multicore architectures …