diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/README.md b/tutorials/sphereGranFlow/binarySystemOfParticles/README.md index b18c204c..299245d9 100644 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/README.md +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/README.md @@ -1,6 +1,6 @@ # Problem definition -A rotating drum with two particle sizes is randomly filled and let it rotate to see the segregation of particles. -The focus of this tutorial is to show how to use the pre-processing tool, `particlesPhasicFlow`, to create the initial mixture of small and large particles. + +A rotating drum is randomly filled with two particle sizes and rotated to observe particle segregation. The focus of this tutorial is to show how to use the preprocessing tool `particlesPhasicFlow` to create the initial mixture of small and large particles. **Note:** It is supposed that you have reviewed [simulating a rotating drum](https://github.com/PhasicFlow/phasicFlow/wiki/Simulating-a-rotating-drum) tutorial before starting this tutorial. @@ -14,11 +14,13 @@ a view of the rotating drum with small and large particles after 7 seconds of ro *** # Case setup -PhasicFlow simulation case setup is based on the text-based files that we provide in two folders located in the simulation case folder: `settings` and `caseSetup`. Here we will have a look at some important files and the rest can be found in the tutorial folder of this case setup. + +In the file `caseSetup/sphereShape` two particle types with the names `smallSphere` and `largeSphere` and the diameters 3 and 5 mm are defined. [Simulation case setup files can be found in tutorials/sphereGranFlow folder.](https://github.com/PhasicFlow/phasicFlow/tree/main/tutorials/sphereGranFlow/binarySystemOfParticles) ### Shape definition -In file `caseSetup/sphereShape`, two particle types with names `smallSphere` and `largeSphere` and diameters 3 and 5 mm are defined. + +In the file `caseSetup/sphereShape` two particle types with the names `smallSphere` and `largeSphere` and the diameters 3 and 5 mm are defined.
in caseSetup/sphereShape file @@ -31,7 +33,7 @@ materials (prop1 prop1); // material names for shapes ``` ### Positioning and initial mixture -In dictionary `positionParticles` located in file `settings/particlesDict`, 30000 particles are located in a cylindrical region. These particles are positioned in order along `z`, `x` and then `y` axis with 0.005 m distance between their centers. +In the dictionary `positionParticles` located in file `settings/particlesDict`, 30000 particles are located in a cylindrical region. These particles are positioned in order along `z`, `x` and then `y` axis with 0.005 m distance between their centers.
in settings/particlesDict file @@ -42,10 +44,16 @@ in settings/particlesDict file // positions particles positionParticles { - method positionOrdered; // ordered positioning + method ordered; // other options: random or empty - maxNumberOfParticles 30001; // maximum number of particles in the simulation - mortonSorting Yes; // perform initial sorting based on morton code? + 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 + } + + regionType cylinder; // other options: box and sphere cylinder // cylinder region for positioning particles { @@ -53,17 +61,9 @@ positionParticles p2 (0.0 0.0 0.097); // end point of cylinder axis (m m m) radius 0.117; // radius of cylinder (m) } - - positionOrderedInfo - { - 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 - } } ``` - -In dictionary `setFields` located in file `settings/particlesDict`, you define the initial `velocity`, `acceleration`, `rotVelocity`, and `shapeName` fields for all 30000 particles in the simulation. In `selectors` dictionary, you can select subsets of particles and set the field value for these subsets. In `shapeAssigne` sub-dictionary, the `selectRange` selector is defined. It defines a range with `begin` (begin index), `end` (end index) and `stride` to select particles. And in `fieldValue` sub-dictionary, the fields values for selected particles are set (any number of field values can be set here). +In the `setFields` dictionary, located in the `settings/particlesDict` file, you define the initial `velocity`, `acceleration`, `rotVelocity` and `shapeName` fields for all 30000 particles in the simulation. In the `selectors' dictionary, you can select subsets of particles and set the field value for those subsets. The `selectRange` selector is defined in the `shapeAssigne` subdictionary. It defines a range with `begin`, `end` and `stride` to select particles. And in the `fieldValue` subdictionary the field values for selected particles are set (any number of field values can be set here). **Note:** Other selectors are: `selectBox` that selects particles inside a box and `randomSelect` that selects particles randomly from a given index range. @@ -77,7 +77,8 @@ setFields /* Default value for fields defined for particles These fields should always be defined for simulations with - spherical particles.*/ + spherical particles. +*/ defaultValue { @@ -91,8 +92,9 @@ setFields { shapeAssigne { - selector selectRange; // type of point selector - selectRangeInfo + selector stridedRange; // other options: box, cylinder, sphere, randomPoints + + stridedRangeInfo { begin 0; // begin index of points end 30000; // end index of points @@ -101,10 +103,10 @@ setFields fieldValue // fields that the selector is applied to { /* - sets shapeName of the selected points to largeSphere*/ + sets shapeName of the selected points to largeSphere + */ shapeName word largeSphere; } - } } diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/interaction b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/interaction old mode 100644 new mode 100755 index 9e154f4c..3a7920f2 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/interaction +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/interaction @@ -6,47 +6,46 @@ objectName interaction; objectType dicrionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -materials (prop1); // properties of material +materials (prop1); // properties of material -densities (1000.0); // density of materials [kg/m3] +densities (1000.0); // density of materials [kg/m3] -contactListType sortedContactList; +contactListType sortedContactList; contactSearch { - method NBS; // method for broad search + method NBS; // method for broad search - updateInterval 10; + updateInterval 10; - sizeRatio 1.1; + sizeRatio 1.1; cellExtent 0.55; - adjustableBox Yes; + adjustableBox Yes; } model { - contactForceModel nonLinearNonLimited; + contactForceModel nonLinearNonLimited; - rollingFrictionModel normal; + rollingFrictionModel normal; // Property (solid-solid Properties) - Yeff (1.0e6); // Young modulus [Pa] + Yeff (1.0e6); // Young modulus [Pa] - Geff (0.8e6); // Shear modulus [Pa] + Geff (0.8e6); // Shear modulus [Pa] - nu (0.25); // Poisson's ratio [-] + nu (0.25); // Poisson's ratio [-] - en (0.7); // coefficient of normal restitution + en (0.7); // coefficient of normal restitution - et (1.0); // coefficient of tangential restitution + et (1.0); // coefficient of tangential restitution - mu (0.3); // dynamic friction + mu (0.3); // dynamic friction - mur (0.1); // rolling friction + mur (0.1); // rolling friction } - diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/particleInsertion b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/particleInsertion old mode 100644 new mode 100755 index 3629d63f..47ba5063 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/particleInsertion +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/particleInsertion @@ -6,9 +6,6 @@ objectName particleInsertion; objectType dicrionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -active No; // is insertion active -> yes or no - -collisionCheck No; // is checked -> yes or no - - +collisionCheck No; // is checked -> yes or no +active No; // is insertion active -> yes or no diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/shapes b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/shapes old mode 100644 new mode 100755 index 625afe3a..7c3fe1d3 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/shapes +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/caseSetup/shapes @@ -6,9 +6,8 @@ objectName sphereDict; objectType sphereShape; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -names (smallSphere largeSphere); // names of shapes +names (smallSphere largeSphere); // names of shapes -diameters (0.003 0.005); // diameter of shapes +diameters (0.003 0.005); // diameter of shapes -materials (prop1 prop1); // material names for shapes - \ No newline at end of file +materials (prop1 prop1); // material names for shapes diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/domainDict b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/domainDict old mode 100644 new mode 100755 index f4679bbb..afda899f --- a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/domainDict +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/domainDict @@ -6,11 +6,11 @@ objectName domainDict; objectType dictionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -globalBox // Simulation domain: every particles that goes outside this domain will be deleted +globalBox // Simulation domain: every particles that goes outside this domain will be deleted { - 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); } decomposition @@ -23,41 +23,41 @@ boundaries // Determines how often (how many iterations) do you want to // rebuild the list of particles in the neighbor list // of all boundaries in the simulation domain - neighborListUpdateInterval 50; + neighborListUpdateInterval 50; // Determines how often do you want to update the new changes in the boundary - updateInterval 10; + updateInterval 10; // The distance from the boundary plane within which particles are marked to be in the boundary list - neighborLength 0.004; + neighborLength 0.004; left { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } right { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } bottom { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } top { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } rear { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } front { - type exit; // other options: periodict, reflective + type exit; // other options: periodict, reflective } -} \ No newline at end of file +} diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/geometryDict b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/geometryDict old mode 100644 new mode 100755 index 6dfadd8b..baff5621 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/geometryDict +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/geometryDict @@ -6,17 +6,17 @@ objectName geometryDict; objectType dictionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -motionModel rotatingAxis; // motion model can be rotatingAxis or stationary or vibrating +motionModel rotatingAxis; // motion model can be rotatingAxis or stationary or vibrating -rotatingAxisInfo // information for rotatingAxis motion model +rotatingAxisInfo // information for rotatingAxis motion model { rotAxis { - p1 (0.0 0.0 0.0); // first point for the axis of rotation + 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 + p2 (0.0 0.0 1.0); // second point for the axis of rotation - omega 1.214; // rotation speed (rad/s) + omega 1.214; // rotation speed (rad/s) } } @@ -24,21 +24,21 @@ surfaces { cylinder { - type cylinderWall; // type of the wall + 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 } /* @@ -47,19 +47,19 @@ surfaces wall1 { - type planeWall; // type of the wall + type planeWall; // other options: cuboidWall and cylinderWall 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 } /* @@ -68,20 +68,18 @@ surfaces wall2 { - type planeWall; // type of the wall + type planeWall; // other options: cuboidWall and cylinderWall p1 (-0.12 -0.12 0.1); // first point of the wall - p2 ( 0.12 -0.12 0.1); // second point of the wall + p2 (0.12 -0.12 0.1); // second point of the wall - p3 ( 0.12 0.12 0.1); // third point of the wall + p3 (0.12 0.12 0.1); // third point of the wall - p4 (-0.12 0.12 0.1); // fourth point of the wall + p4 (-0.12 0.12 0.1); // 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 } } - - diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/particlesDict b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/particlesDict old mode 100644 new mode 100755 index 384c17c3..1dcb3938 --- a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/particlesDict +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/particlesDict @@ -9,9 +9,8 @@ fileFormat ASCII; setFields { /* - Default value for fields defined for particles - These fields should always be defined for simulations with - spherical particles. + Default value for fields defined for particles: + These fields should always be defined for simulations with spherical particles */ defaultValue @@ -72,5 +71,3 @@ positionParticles // positions particles radius 0.117; // radius of cylinder } } - - diff --git a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/settingsDict b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/settingsDict old mode 100644 new mode 100755 index 595daae5..b7aeb33b --- a/tutorials/sphereGranFlow/binarySystemOfParticles/settings/settingsDict +++ b/tutorials/sphereGranFlow/binarySystemOfParticles/settings/settingsDict @@ -6,29 +6,30 @@ objectName settingsDict; objectType dictionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -run binarySystemofParticles; +run binarySystemofParticles; -dt 0.00001; // time step for integration (s) +dt 0.00001; // time step for integration (seconds) -startTime 0; // start time for simulation +startTime 0.0; // start time for simulation -endTime 10; // 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 (rVelocity.dy1 pStructPosition.dy1 pStructVelocity.dy1); -integrationMethod AdamsBashforth2; // integration method +integrationMethod AdamsBashforth2; // integration method -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 0.01; // time interval for reporting timers +timersReportInterval 0.01; // time interval for reporting timers + \ No newline at end of file diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/interaction b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/interaction old mode 100644 new mode 100755 index 2c2eac9e..d73e4195 --- a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/interaction +++ b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/interaction @@ -6,9 +6,9 @@ objectName interaction; objectType dicrionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -materials (lightMat heavyMat wallMat); // a list of materials names +materials (lightMat heavyMat wallMat); // a list of materials names -densities (1000 1500.0 2500); // density of materials [kg/m3] +densities (1000 1500.0 2500); // density of materials [kg/m3] contactListType sortedContactList; @@ -37,33 +37,34 @@ model wallMat-wallMat ); */ - Yeff (1.0e6 1.0e6 1.0e6 // Young modulus [Pa] + Yeff (1.0e6 1.0e6 1.0e6 // Young modulus [Pa] 1.0e6 1.0e6 1.0e6); - Geff (0.8e6 0.8e6 0.8e6 // Shear modulus [Pa] + Geff (0.8e6 0.8e6 0.8e6 // Shear modulus [Pa] 0.8e6 0.8e6 0.8e6); - nu (0.25 0.25 0.25 // Poisson's ratio [-] + nu (0.25 0.25 0.25 // Poisson's ratio [-] 0.25 0.25 0.25); - en (0.97 0.97 0.85 // coefficient of normal restitution + en (0.97 0.97 0.85 // coefficient of normal restitution 0.97 0.85 1.00); - et (1.0 1.0 1.0 // coefficient of tangential restitution + et (1.0 1.0 1.0 // coefficient of tangential restitution 1.0 1.0 1.0); - mu (0.65 0.65 0.35 // dynamic friction + mu (0.65 0.65 0.35 // dynamic friction 0.65 0.35 0.35); - mur (0.1 0.1 0.1 // rolling friction + mur (0.1 0.1 0.1 // rolling friction 0.1 0.1 - 0.1); - + 0.1); } + + diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/particleInsertion b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/particleInsertion old mode 100644 new mode 100755 index 860280e8..fd311c48 --- a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/particleInsertion +++ b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/particleInsertion @@ -6,9 +6,9 @@ objectName particleInsertion; objectType dicrionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -active yes; // is insertion active -> yes or no +active Yes; // is insertion active -> yes or no -checkForCollision No; // is checked -> yes or no +checkForCollision No; // is checked -> yes or no /* one layers of particles are packed @@ -50,3 +50,5 @@ layer0 + + diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/shapes b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/shapes old mode 100644 new mode 100755 index 04cda25c..603c28cb --- a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/shapes +++ b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/shapes @@ -6,8 +6,10 @@ objectName sphereDict; objectType sphereShape; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -names (lightSphere heavySphere); // names of shapes +names (lightSphere heavySphere); // names of shapes + +diameters (0.007 0.007); // diameter of shapes + +materials (lightMat heavyMat); // material names for shapes -diameters (0.007 0.007); // diameter of shapes -materials (lightMat heavyMat); // material names for shapes diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/sphereShape b/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/sphereShape deleted file mode 100755 index 749d1f0c..00000000 --- a/tutorials/sphereGranFlow/layeredSiloFilling/caseSetup/sphereShape +++ /dev/null @@ -1,12 +0,0 @@ -/* -------------------------------*- C++ -*--------------------------------- *\ -| phasicFlow File | -| copyright: www.cemf.ir | -\* ------------------------------------------------------------------------- */ -objectName sphereDict; -objectType sphereShape; -fileFormat ASCII; -/*---------------------------------------------------------------------------*/ - -names (lightSphere heavySphere); // names of shapes -diameters (0.007 0.007); // diameter of shapes -materials (lightMat heavyMat); // material names for shapes diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/cleanThisCase b/tutorials/sphereGranFlow/layeredSiloFilling/cleanThisCase old mode 100644 new mode 100755 diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/runThisCase b/tutorials/sphereGranFlow/layeredSiloFilling/runThisCase old mode 100644 new mode 100755 diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/settings/domainDict b/tutorials/sphereGranFlow/layeredSiloFilling/settings/domainDict old mode 100644 new mode 100755 index 3ff734a8..c9f52b8d --- a/tutorials/sphereGranFlow/layeredSiloFilling/settings/domainDict +++ b/tutorials/sphereGranFlow/layeredSiloFilling/settings/domainDict @@ -21,10 +21,10 @@ boundaries neighborListUpdateInterval 30; // Determines how often do you want to update the new changes in the boundary - updateInterval 10; + updateInterval 10; // The distance from the boundary plane within which particles are marked to be in the boundary list - neighborLength 0.004; + neighborLength 0.004; left { @@ -55,4 +55,6 @@ boundaries { type exit; // other options: periodict, reflective } -} \ No newline at end of file +} + + diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/settings/geometryDict b/tutorials/sphereGranFlow/layeredSiloFilling/settings/geometryDict old mode 100644 new mode 100755 index dcdd281e..fcab5c6d --- a/tutorials/sphereGranFlow/layeredSiloFilling/settings/geometryDict +++ b/tutorials/sphereGranFlow/layeredSiloFilling/settings/geometryDict @@ -6,7 +6,7 @@ objectName geometryDict; objectType dictionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -motionModel stationary; // motion model can be rotatingAxis or stationary or vibrating +motionModel stationary; // motion model can be rotatingAxis or stationary or vibrating stationaryInfo { @@ -17,36 +17,36 @@ surfaces { cylinderShell { - type cylinderWall; // type of the wall + 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 0.4); // end point of cylinder axis + p2 (0.0 0.0 0.4); // end point of cylinder axis - radius1 0.1; // radius at p1 + radius1 0.1; // radius at p1 - radius2 0.1; // radius at p2 + radius2 0.1; // radius at p2 - resolution 36; // number of divisions + resolution 36; // number of divisions - material wallMat; // material name of this wall + material wallMat; // material name of this wall } coneShell { - type cylinderWall; // type of the wall + type cylinderWall; // other options: cuboidWall and planeWall - p1 (0.0 0.0 -0.1); // begin point of cylinder axis + p1 (0.0 0.0 -0.1); // begin point of cylinder axis - p2 (0.0 0.0 0.0); // end point of cylinder axis + p2 (0.0 0.0 0.0); // end point of cylinder axis - radius1 0.02; // radius at p1 + radius1 0.02; // radius at p1 - radius2 0.1; // radius at p2 + radius2 0.1; // radius at p2 - resolution 36; // number of divisions + resolution 36; // number of divisions - material wallMat; // material name of this wall + material wallMat; // material name of this wall } /* @@ -55,18 +55,22 @@ surfaces exitGate { - type planeWall; // type of the wall + type planeWall; // other options: cuboidWall and cylinderWall - p1 (-0.02 -0.02 -0.1); // first point of the wall + p1 (-0.02 -0.02 -0.1); // first point of the wall - p2 ( 0.02 -0.02 -0.1); // second point of the wall + p2 ( 0.02 -0.02 -0.1); // second point of the wall - p3 ( 0.02 0.02 -0.1); // third point of the wall + p3 ( 0.02 0.02 -0.1); // third point of the wall - p4 (-0.02 0.02 -0.1); // fourth point of the wall + p4 (-0.02 0.02 -0.1); // fourth point of the wall - material wallMat; // material name of the wall + material wallMat; // material name of the wall } } + + + + diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/settings/particlesDict b/tutorials/sphereGranFlow/layeredSiloFilling/settings/particlesDict old mode 100644 new mode 100755 index ec788fbe..5145dddc --- a/tutorials/sphereGranFlow/layeredSiloFilling/settings/particlesDict +++ b/tutorials/sphereGranFlow/layeredSiloFilling/settings/particlesDict @@ -16,13 +16,13 @@ setFields defaultValue { - velocity realx3 (0 0 0); // linear velocity (m/s) + 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 lightSphere; // name of the particle shape + shapeName word lightSphere; // name of the particle shape } selectors @@ -31,14 +31,15 @@ setFields positionParticles // positions particles { - method empty; // other options: ordered and random + method empty; // other options: ordered and random - regionType box; // other options: cylinder and sphere + regionType box; // other options: cylinder and sphere - boxInfo // box region for positioning particles + boxInfo // box region for positioning particles { - min (-0.08 -0.08 0.015); // lower corner point of the box + min (-0.08 -0.08 0.015); // lower corner point of the box - max ( 0.08 0.08 0.098); // upper corner point of the box + max ( 0.08 0.08 0.098); // upper corner point of the box } } + diff --git a/tutorials/sphereGranFlow/layeredSiloFilling/settings/settingsDict b/tutorials/sphereGranFlow/layeredSiloFilling/settings/settingsDict old mode 100644 new mode 100755 index d1d09442..44823844 --- a/tutorials/sphereGranFlow/layeredSiloFilling/settings/settingsDict +++ b/tutorials/sphereGranFlow/layeredSiloFilling/settings/settingsDict @@ -6,29 +6,33 @@ objectName settingsDict; objectType dictionary; fileFormat ASCII; /*---------------------------------------------------------------------------*/ -run layerdSiloFilling; +run layerdSiloFilling; -dt 0.00001; // time step for integration (s) +dt 0.00001; // time step for integration (s) -startTime 0.0; // start time for simulation +startTime 0.0; // start time for simulation -endTime 5.0; // end time for simulation +endTime 5.0; // end time for simulation -saveInterval 0.05; // time interval for saving the simulation +saveInterval 0.05; // 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 0 -9.8); // gravity vector (m/s2) +g (0 0 -9.8); // gravity vector (m/s2) -// save necessary (i.e., required) data on disk +// save data objects that are not automatically saved on disk. +// overrides the default behavior includeObjects (diameter); // exclude unnecessary data from saving on disk excludeObjects (rVelocity.dy1 pStructPosition.dy1 pStructVelocity.dy1); -integrationMethod AdamsBashforth2; // integration method +integrationMethod AdamsBashforth2; // integration method + +writeFormat ascii; // data writting format (ascii or binary) + +timersReport Yes; // report timers + +timersReportInterval 0.01; // time interval for reporting timers -writeFormat ascii; // data writting format (ascii or binary) -timersReport Yes; // report timers -timersReportInterval 0.01; // time interval for reporting timers