A Level Set-Discrete Element Method in YADE for numerical, micro-scale, geomechanics with refined grain shapes

A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one with another while showing complex grain shapes. Following the so-called Level Set-Discrete Element Method (LS-DEM), the simulation workflow ste...

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Published inComputers & geosciences Vol. 157; pp. 104936 - 43/104936
Main Authors Duriez, Jérôme, Galusinski, Cédric
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2021
Elsevier
Subjects
algorithms
computers
Discrete Element Method (DEM)
Engineering Sciences
FasT Marching Method (FMM)
fields
Level Set-DEM (LS-DEM)
light
Mechanics
particles
Particle’s shape
refined grains
shape
surfaces
Level Set-DEM (LS-DEM)
Discrete Element Method (DEM)
Particle’s shape
FasT Marching Method (FMM)
Fast Marching Method (FMM)
particle’s shape
Online AccessGet full text
ISSN0098-3004
1873-7803
1873-7803
DOI10.1016/j.cageo.2021.104936

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Abstract A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one with another while showing complex grain shapes. Following the so-called Level Set-Discrete Element Method (LS-DEM), the simulation workflow stems from a discrete field for the signed distance function to every particle, with its zero-level set corresponding to a particle’s surface. A Fast Marching Method is proposed to construct such a distance field for a wide class of surfaces. In connection with dedicated contact algorithms and Paraview visualization procedures, this shape description eventually extends the YADE platform for discrete simulations. Its versatility is illustrated on superquadric particles i.e. superellipsoids. On computational aspects, memory requirements possibly exceed one megabyte (MB) per particle when using a double numeric precision, and time costs, though also significant, appear to be lighter than the use of convex polyhedra and can be drastically reduced using a simple, OpenMP, parallel execution. [Display omitted] •A level-set particle description extends the YADE code for discrete mechanics.•It relies upon a discrete distance field and surface nodes for every particle.•Complex shapes can be described starting from a general Fast Marching Method.•The approach is memory-intensive but possibly much faster than the use of polyhedra.
AbstractList A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one with another while showing complex grain shapes. Following the so-called Level Set-Discrete Element Method (LS-DEM), the simulation workflow stems from a discrete field for the signed distance function to every particle, with its zero-level set corresponding to a particle’s surface. A Fast Marching Method is proposed to construct such a distance field for a wide class of surfaces. In connection with dedicated contact algorithms and Paraview visualization procedures, this shape description eventually extends the YADE platform for discrete simulations. Its versatility is illustrated on superquadric particles i.e. superellipsoids. On computational aspects, memory requirements possibly exceed one megabyte (MB) per particle when using a double numeric precision, and time costs, though also significant, appear to be lighter than the use of convex polyhedra and can be drastically reduced using a simple, OpenMP, parallel execution.
A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one with another while showing complex grain shapes. Following the so-called Level Set-Discrete Element Method (LS-DEM), the simulation workflow stems from a discrete field for the signed distance function to every particle, with its zero-level set corresponding to a particle’s surface. A Fast Marching Method is proposed to construct such a distance field for a wide class of surfaces. In connection with dedicated contact algorithms and Paraview visualization procedures, this shape description eventually extends the YADE platform for discrete simulations. Its versatility is illustrated on superquadric particles i.e. superellipsoids. On computational aspects, memory requirements possibly exceed one megabyte (MB) per particle when using a double numeric precision, and time costs, though also significant, appear to be lighter than the use of convex polyhedra and can be drastically reduced using a simple, OpenMP, parallel execution. [Display omitted] •A level-set particle description extends the YADE code for discrete mechanics.•It relies upon a discrete distance field and surface nodes for every particle.•Complex shapes can be described starting from a general Fast Marching Method.•The approach is memory-intensive but possibly much faster than the use of polyhedra.
A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one with another while showing complex grain shapes. Following the socalled Level Set-Discrete Element Method (LS-DEM), the simulation workflow stems from a discrete field for the signed distance function to every particle, with its zero-level set corresponding to a particle’s surface. A Fast Marching Method is proposed to construct such a distance field for a wide class of surfaces. In connection with dedicated contact algorithms and Paraview visualization procedures, this shape description eventually extends the YADE platform for discrete simulations. Its versatility is illustrated on superquadric particles i.e. superellipsoids. On computational aspects, memoryrequirements possibly exceed one megabyte (MB) per particle when using a double numeric precision, and time costs, though also significant, appear to be lighter than the use of convex polyhedra and can be drastically reducedusing a simple, OpenMP, parallel execution.
ArticleNumber 104936
Author Galusinski, Cédric
Duriez, Jérôme
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Keywords Level Set-DEM (LS-DEM)
Discrete Element Method (DEM)
Particle’s shape
FasT Marching Method (FMM)
Fast Marching Method (FMM)
particle’s shape
Language English
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Snippet A C++-Python package is proposed for 3D mechanical simulations of granular geomaterials, seen as a collection of particles being in contact interaction one...
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StartPage 104936
SubjectTerms algorithms
computers
Discrete Element Method (DEM)
Engineering Sciences
FasT Marching Method (FMM)
fields
Level Set-DEM (LS-DEM)
light
Mechanics
particles
Particle’s shape
refined grains
shape
surfaces
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Title A Level Set-Discrete Element Method in YADE for numerical, micro-scale, geomechanics with refined grain shapes
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