3838df8eac
The convoluted separate ".*Coeffs" dictionary form of model coefficient
specification is now deprecated and replaced with the simpler sub-dictionary
form but support is provided for the deprecated form for backward comparability.
e.g.
thermophysicalProperties
{
type liquid;
useReferenceValues no;
liquid H2O;
}
rather than
filmThermoModel liquid;
liquidCoeffs
{
useReferenceValues no;
liquid H2O;
}
and
forces
{
thermocapillary;
distributionContactAngle
{
Ccf 0.085;
distribution
{
type normal;
normalDistribution
{
minValue 50;
maxValue 100;
expectation 75;
variance 100;
}
}
zeroForcePatches ();
}
}
rather than
forces
(
thermocapillary
distributionContactAngle
);
distributionContactAngleCoeffs
{
Ccf 0.085;
distribution
{
type normal;
normalDistribution
{
minValue 50;
maxValue 100;
expectation 75;
variance 100;
}
}
zeroForcePatches ();
}
All the tutorial cases containing a surface film have been updated for guidance,
e.g. tutorials/lagrangian/buoyantReactingParticleFoam/hotBoxes/constant/surfaceFilmProperties
surfaceFilmModel thermoSingleLayer;
regionName wallFilmRegion;
active true;
thermophysicalProperties
{
type liquid;
useReferenceValues no;
liquid H2O;
}
viscosity
{
model liquid;
}
deltaWet 1e-4;
hydrophilic no;
momentumTransport
{
model laminar;
Cf 0.005;
}
forces
{
thermocapillary;
distributionContactAngle
{
Ccf 0.085;
distribution
{
type normal;
normalDistribution
{
minValue 50;
maxValue 100;
expectation 75;
variance 100;
}
}
zeroForcePatches ();
}
}
injection
{
curvatureSeparation
{
definedPatchRadii
(
("(cube[0-9][0-9]_side[0-9]_to_cube[0-9][0-9]_side[0-9])" 0)
);
}
drippingInjection
{
cloudName reactingCloud1;
deltaStable 0;
particlesPerParcel 100.0;
parcelDistribution
{
type RosinRammler;
RosinRammlerDistribution
{
minValue 5e-04;
maxValue 0.0012;
d 7.5e-05;
n 0.5;
}
}
}
}
phaseChange
{
model standardPhaseChange;
Tb 373;
deltaMin 1e-8;
L 1.0;
}
upperSurfaceModels
{
heatTransfer
{
model mappedConvectiveHeatTransfer;
}
}
lowerSurfaceModels
{
heatTransfer
{
model constant;
c0 50;
}
}
README for OpenFOAM-dev
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- Copyright
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- Source code documentation
- OpenFOAM C++ Style Guide
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- Contacting the OpenFOAM Foundation
#
About OpenFOAM
OpenFOAM is a free, open source computational fluid dynamics (CFD) software package released by the OpenFOAM Foundation. It has a large user base across most areas of engineering and science, from both commercial and academic organisations. OpenFOAM has an extensive range of features to solve anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics and electromagnetics.
Copyright
OpenFOAM is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version. See the file COPYING in this directory or
http://www.gnu.org/licenses/, for a description of the GNU General Public
License terms under which you can copy the files.