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tutorials-1 after diameter->distance

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Hamidreza
2025-04-25 14:17:09 +03:30
parent a545acb374
commit 7c3b90a22d
52 changed files with 1100 additions and 908 deletions
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6
tutorials/sphereGranFlow/binarySystemOfParticles/README.md
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@ -47,9 +47,9 @@ positionParticles
method ordered; // other options: random or empty
orderedInfo
{
diameter 0.005; // minimum space between centers of particles
numPoints 30000; // number of particles in the simulation
axisOrder (z x y); // axis order for filling the space with particles
distance 0.005; // minimum space between centers of particles
numPoints 30000; // number of particles in the simulation
axisOrder (z x y); // axis order for filling the space with particles
}
regionType cylinder; // other options: box and sphere

0
tutorials/sphereGranFlow/binarySystemOfParticles/cleanThisCase Normal file → Executable file
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64
tutorials/sphereGranFlow/binarySystemOfParticles/settings/domainDict
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@ -1,49 +1,49 @@
/* -------------------------------*- C++ -*--------------------------------- *\
| phasicFlow File |
| copyright: www.cemf.ir |
| phasicFlow File |
| copyright: www.cemf.ir |
\* ------------------------------------------------------------------------- */
objectName domainDict;
objectType dictionary;
objectName domainDict;
objectType dictionary;
fileFormat ASCII;
/*---------------------------------------------------------------------------*/
// Simulation domain: every particles that goes outside this domain will be deleted
globalBox
globalBox
{
min (-0.12 -0.12 0);
min (-0.12 -0.12 0);
max (0.12 0.12 0.1);
max (0.12 0.12 0.1);
}
boundaries
{
left
{
type exit; // other options: periodic, reflective
}
left
{
type exit; // other options: periodic, reflective
}
right
{
type exit; // other options: periodic, reflective
}
right
{
type exit; // other options: periodic, reflective
}
bottom
{
type exit; // other options: periodic, reflective
}
bottom
{
type exit; // other options: periodic, reflective
}
top
{
type exit; // other options: periodic, reflective
}
top
{
type exit; // other options: periodic, reflective
}
rear
{
type exit; // other options: periodic, reflective
}
rear
{
type exit; // other options: periodic, reflective
}
front
{
type exit; // other options: periodic, reflective
}
front
{
type exit; // other options: periodic, reflective
}
}

94
tutorials/sphereGranFlow/binarySystemOfParticles/settings/geometryDict
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@ -2,84 +2,82 @@
| phasicFlow File |
| copyright: www.cemf.ir |
\* ------------------------------------------------------------------------- */
objectName geometryDict;
objectType dictionary;
objectName geometryDict;
objectType dictionary;
fileFormat ASCII;
/*---------------------------------------------------------------------------*/
motionModel rotatingAxis; // motion model can be rotatingAxis or stationary or vibrating
rotatingAxisInfo // information for rotatingAxis motion model
{
rotAxis
{
p1 (0.0 0.0 0.0); // first point for the axis of rotation
rotAxis
{
p1 (0.0 0.0 0.0); // first point for the axis of rotation
p2 (0.0 0.0 1.0); // second point for the axis of rotation
omega 1.214; // rotation speed (rad/s)
}
p2 (0.0 0.0 1.0); // second point for the axis of rotation
omega 1.214; // rotation speed (rad/s)
}
}
surfaces
{
cylinder
{
type cylinderWall; // other options: cuboidWall and planeWall
cylinder
{
type cylinderWall; // other options: cuboidWall and planeWall
p1 (0.0 0.0 0.0); // begin point of cylinder axis
p1 (0.0 0.0 0.0); // begin point of cylinder axis
p2 (0.0 0.0 0.1); // end point of cylinder axis
p2 (0.0 0.0 0.1); // end point of cylinder axis
radius1 0.12; // radius at p1
radius1 0.12; // radius at p1
radius2 0.12; // radius at p2
radius2 0.12; // radius at p2
resolution 24; // number of divisions
resolution 24; // number of divisions
material prop1; // material name of this wall
material prop1; // material name of this wall
motion rotAxis; // motion component name
}
motion rotAxis; // motion component name
}
/*
This is a plane wall at the rear end of cylinder
*/
/*
This is a plane wall at the rear end of cylinder
*/
wall1
{
type planeWall; // other options: cuboidWall and cylinderWall
wall1
{
type planeWall; // other options: cuboidWall and cylinderWall
p1 (-0.12 -0.12 0.0); // first point of the wall
p1 (-0.12 -0.12 0.0); // first point of the wall
p2 (0.12 -0.12 0.0); // second point of the wall
p2 (0.12 -0.12 0.0); // second point of the wall
p3 (0.12 0.12 0.0); // third point of the wall
p3 (0.12 0.12 0.0); // third point of the wall
p4 (-0.12 0.12 0.0); // fourth point of the wall
p4 (-0.12 0.12 0.0); // fourth point of the wall
material prop1; // material name of the wall
material prop1; // material name of the wall
motion rotAxis; // motion component name
}
motion rotAxis; // motion component name
}
/*
This is a plane wall at the front end of cylinder
*/
wall2
{
type planeWall; // other options: cuboidWall and cylinderWall
/*
This is a plane wall at the front end of cylinder
*/
p1 (-0.12 -0.12 0.1); // first point of the wall
wall2
{
type planeWall; // other options: cuboidWall and cylinderWall
p2 (0.12 -0.12 0.1); // second point of the wall
p1 (-0.12 -0.12 0.1); // first point of the wall
p3 (0.12 0.12 0.1); // third point of the wall
p2 (0.12 -0.12 0.1); // second point of the wall
p4 (-0.12 0.12 0.1); // fourth point of the wall
p3 (0.12 0.12 0.1); // third point of the wall
material prop1; // material name of the wall
p4 (-0.12 0.12 0.1); // fourth point of the wall
material prop1; // material name of the wall
motion rotAxis; // motion component name
}
motion rotAxis; // motion component name
}
}

93
tutorials/sphereGranFlow/binarySystemOfParticles/settings/particlesDict
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@ -2,73 +2,74 @@
| phasicFlow File |
| copyright: www.cemf.ir |
\* ------------------------------------------------------------------------- */
objectName particlesDict;
objectType dictionary;
objectName particlesDict;
objectType dictionary;
fileFormat ASCII;
/*---------------------------------------------------------------------------*/
setFields
{
/*
Default value for fields defined for particles:
/*
Default value for fields defined for particles:
These fields should always be defined for simulations with spherical particles
*/
These fields should always be defined for simulations with spherical particles
*/
defaultValue
{
velocity realx3 (0 0 0); // linear velocity (m/s)
defaultValue
{
velocity realx3 (0 0 0); // linear velocity (m/s)
acceleration realx3 (0 0 0); // linear acceleration (m/s2)
acceleration realx3 (0 0 0); // linear acceleration (m/s2)
rVelocity realx3 (0 0 0); // rotational velocity (rad/s)
rVelocity realx3 (0 0 0); // rotational velocity (rad/s)
shapeName word smallSphere; // name of the particle shape
}
shapeName word smallSphere; // name of the particle shape
}
selectors
{
shapeAssigne
{
selector stridedRange; // other options: box, cylinder, sphere, randomPoints
selectors
{
shapeAssigne
{
selector stridedRange; // other options: box, cylinder, sphere, randomPoints
stridedRangeInfo
{
begin 0; // begin index of points
stridedRangeInfo
{
begin 0; // begin index of points
end 30000; // end index of points
end 30000; // end index of points
stride 3; // stride for selector
}
stride 3; // stride for selector
}
fieldValue // fields that the selector is applied to
{
shapeName word largeSphere; // sets shapeName of the selected points to largeSphere
}
}
}
fieldValue // fields that the selector is applied to
{
shapeName word largeSphere; // sets shapeName of the selected points to largeSphere
}
}
}
}
positionParticles // positions particles
positionParticles // positions particles
{
method ordered; // other options: random and empty
method ordered; // other options: random and empty
orderedInfo
{
diameter 0.005; // diameter of particles
orderedInfo
{
distance 0.005; // minimum distance between particles centers
numPoints 30000; // number of particles in the simulation
numPoints 30000; // number of particles in the simulation
axisOrder (z x y); // axis order for filling the space with particles
}
regionType cylinder; // other options: box and sphere
axisOrder (z x y); // axis order for filling the space with particles
}
regionType cylinder; // other options: box and sphere
cylinderInfo // cylinder information for positioning particles
{
p1 (0.0 0.0 0.003); // begin point of cylinder axis
cylinderInfo // cylinder information for positioning particles
{
p1 (0.0 0.0 0.003); // begin point of cylinder axis
p2 (0.0 0.0 0.097); // end point of cylinder axis
p2 (0.0 0.0 0.097); // end point of cylinder axis
radius 0.117; // radius of cylinder
}
radius 0.117; // radius of cylinder
}
}

28
tutorials/sphereGranFlow/binarySystemOfParticles/settings/settingsDict
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@ -2,37 +2,37 @@
| phasicFlow File |
| copyright: www.cemf.ir |
\* ------------------------------------------------------------------------- */
objectName settingsDict;
objectType dictionary;
objectName settingsDict;
objectType dictionary;
fileFormat ASCII;
/*---------------------------------------------------------------------------*/
run binarySystemofParticles;
dt 0.00001; // time step for integration (seconds)
dt 0.00001; // time step for integration (seconds)
startTime 0.0; // start time for simulation
startTime 0.0; // start time for simulation
endTime 10.0; // end time for simulation
endTime 10.0; // end time for simulation
saveInterval 0.1; // time interval for saving the simulation
saveInterval 0.1; // time interval for saving the simulation
timePrecision 6; // maximum number of digits for time folder
timePrecision 6; // maximum number of digits for time folder
g (0 -9.8 0); // gravity vector (m/s2)
g (0 -9.8 0); // gravity vector (m/s2)
// save necessary (i.e., required) data on disk
includeObjects (diameter);
// exclude unnecessary data from saving on disk
excludeObjects ();
excludeObjects (rVelocity.dy1 pStructPosition.dy1 pStructVelocity.dy1);
integrationMethod AdamsBashforth2; // integration method
integrationMethod AdamsBashforth2; // integration method
integrationHistory off; // do not keep integration history on disk (saves space)
writeFormat ascii; // data writting format (ascii or binary)
writeFormat ascii; // data writting format (ascii or binary)
timersReport Yes; // report timers
timersReport Yes; // report timers
timersReportInterval 0.1; // time interval for reporting timers
timersReportInterval 0.1; // time interval for reporting timers