When a finite-area case could not find an entry for "lnGradSchemes"
in the "faSchemes" file, the "corrected" scheme has been picked up
by default. Therefore, any changes in "snGradSchemes" entry will not
be read by finite-area models.
- include constant/faMesh cleanup (cleanFaMesh) as part of standard
cleanCase
- simplify cleanPolyMesh function to now just warn about old
constant/polyMesh/blockMeshDict but not try to remove anything
- cleanup cellDist.vtu (decomposePar -dry-run) as well
ENH: foamRunTutorials - fallback to Allrun-parallel, Allrun-serial
TUT: call m4 with file argument instead of redirected stdin
TUT: adjust suffixes on decomposeParDict variants
Reports cloud information for particles passing through a specified cell
zone.
Example usage:
cloudFunctions
{
particleZoneInfo1
{
type particleZoneInfo;
cellZone leftFluid;
// Optional entries
//writer vtk;
}
}
Results are written to file:
- \<case\>/postProcessing/lagrangian/\<cloudName\>/\<functionName\>/\<time\>
\# cellZone : leftFluid
\# time : 1.0000000000e+00
\#
\# origID origProc (x y z) time0 age d0 d mass0 mass
Where
- origID : particle ID
- origProc : processor ID
- (x y z) : Cartesian co-ordinates
- time0 : time particle enters the cellZone
- age : time spent in the cellZone
- d0 : diameter on entry to the cellZone
- d : current diameter
- mass0 : mass on entry to the cellZone
- mass : current mass
If the optional \c writer entry is supplied, cloud data is written in the
specified format.
During the run, output statistics are reported after the cloud solution,
e.g.:
particleZoneInfo:
Cell zone = leftFluid
Contributions = 257
Here, 'Contributions' refers to the number of incremental particle-move
contributions recorded during this time step. At write times, the output
is extended, e.g.:
particleZoneInfo:
Cell zone = leftFluid
Contributions = 822
Number of particles = 199
Written data to "postProcessing/lagrangian/reactingCloud1/
TUT: filter: add an example for the particleZoneInfo function object
- can now specify sampled sets as dictionary entries instead of a list
entry.
can now use: sets { ... }
instead of: sets ( ... );
This is similar to sampled surfaces and makes it easier to
manage with dictionary manipulation tools.
TUT: update to use writeTime instead of outputTime
- when used with *any* alphaField and normalised (the usual case)
would largely give a 0-1 corresponding to the min/max of the first
component, but could also yield negative values.
- if the alpha field corresponds identically to colour field, it is
readily possible to combine as into RGBA sequences. However, if the
fields are different it potentially means referencing an opacity
field that has not yet been sampled. This impedes using the format
for a streaming sampler without additional overhead and/or rewriting
the alpha channel later.
The parcel initial velocity can now be set using the new `velocityType`
entry, taking one of the following options:
- fixedValue : (default) same as earlier versions, requires U0
- patchValue : velocity set to seed patch face value
- zeroGradient : velocity set to seed patch face adjacent cell value
Example usage:
model1
{
type patchInjection;
massTotal 1;
SOI 0;
parcelBasisType mass;
patch cylinder;
duration 10;
parcelsPerSecond 100;
velocityType patchValue;
//velocityType zeroGradient;
//U0 (-10 0 0);
flowRateProfile constant 1;
sizeDistribution
{
type normal;
normalDistribution
{
expectation 1e-3;
variance 1e-4;
minValue 1e-5;
maxValue 2e-3;
}
}
}
See the new $FOAM_TUTORIALS/lagrangian/kinematicParcelFoam/spinningDisk tutorial
The original thermoSurfaceFilm sub-models were divided between kinematicSurfaceFilm and thermoSurfaceFilm in order to use the surfaceFilm model in a kinematicCloud.
The film interaction models are now in a kinematicSurface class which can be used in a kinematic cloud adding constant thermal properties (p and T) for some sub-models, e.g. drySplashInteraction/wetSplashInteraction.
pRef and Tref were added to the kinematicSurfaceFilm as entry to the regionFilm when used with a kinematic cloud.
In the finite area surface film model Tref, pRef are stored in filmSubModelBase.
TUT: kinematicParcelFoam: new tutorial pitzDailySprinkles
Computes a selected operation between multiple \c fieldValue function
objects.
The operation is applied to all results of each \c fieldValue object.
Note
Each object must generate the same number and type of results.
Usage
Minimal example by using \c system/controlDict.functions:
multiFieldValue1
{
// Mandatory entries (unmodifiable)
type multiFieldValue;
libs (fieldFunctionObjects);
// Mandatory entries (runtime modifiable)
operation subtract;
// List of fieldValue function objects as dictionaries
functions
{
region1
{
...
}
region2
{
...
}
...
regionN
{
...
}
}
// Optional (inherited) entries
...
}
where the entries mean:
Property | Description | Type | Req'd | Dflt
type | Type name: multiFieldValue | word | yes | -
libs | Library name: fieldFunctionObjects | word | yes | -
operation | Operation type to apply to values | word | yes | -
functions | List of fieldValue function objects | dict | yes | -
\endtable
Options for the \c operation entry:
add | add
subtract | subtract
min | minimum
max | maximum
average | average
Deprecated fieldValueDelta
- The fieldValueDelta function object was originally written to compute the
difference between two fieldValue-type function objects. The multiFieldValue
object name better describes its purpose whilst being able to operate on an
arbitrary number of fieldValue-type objects.
Creates volume fields whose boundaries are used to store patch interaction
statistics.
Current field output per patch face:
- \<cloud\>\<model\>:count - cumulative particle hits
- \<cloud\>\<model\>:mass - cumuluative mass of hitting particles
Fields can be reset according to:
- none: fields are not reset
- timeStep: reset at each time step
- writeTime: reset at each write time
Usage
patchInteractionFields1
{
type patchInteractionFields;
resetMode writeTime;
}
Shows an example of the new recyclePatchInteraction model
- particles that escape from the outlet are recycled back into the
domain via the second inlet
Signed-off-by: Kutalmis Bercin <kutalmis.bercin@esi-group.com>
- additional "names" entry to specify a word/regex list of selections
For example,
{
type patch;
name inlets;
names ("inlet_[0-9].*" inlet);
}
- if "names" exists AND contains a literal (non-regex) that can be used
as a suitable value for "name", the "name" entry becomes optional.
For example,
{
type patch;
names ("inlet_[0-9].*" inlet);
// inferred name = inlet
}
- reduce some overhead in surfaceFieldValue
TUT: surfaceFieldValue on patches : reactingParcelFoam/verticalChannel
Computes a histogram for the distribution of particle diameters
and corresponding number of particles hitting on a given list of patches.
A minimal example by using `constant/reactingCloud1Properties.cloudFunctions`:
```
patchParticleHistogram1
{
// Mandatory entries (unmodifiable)
type patchParticleHistogram;
patches (<patch1> <patch2> ... <patchN>);
nBins 10;
min 0.1;
max 10.0;
maxStoredParcels 20;
}
```
