Commit graph

30 commits

Author SHA1 Message Date
Chris Greenshields
392d196bc8 template cases: added minor comment to blockMeshDict files 2017-04-04 12:36:50 +01:00
Chris Greenshields
a13deb2cb5 template cases: added nCellsBetweenLevels to snappyHexMeshDict files 2017-04-04 12:33:17 +01:00
Chris Greenshields
d9b9118ee4 template cases: added cylindrical background mesh in rotating geometry cases
snappyHexMesh produces a far better quality AMI interface using a cylindrical background mesh,
leading to much more robust performance, even on a relatively coarse mesh.  The min/max AMI
weights remain close to 1 as the mesh moves, giving better conservation.

The rotating geometry template cases are configured with a blockMeshDict file for a cylindrical
background mesh aligned along the z-axis.  The details of use are found in the README and
blockMeshDict files.
2017-04-04 12:29:04 +01:00
Chris Greenshields
28df1a2d1d template cases: minor edit to README files 2017-04-04 11:48:29 +01:00
Chris Greenshields
9004964df2 template cases: added pre-commented external patches to blockMeshDict
Uncommenting the patches provides a convenient way to use the patches in the background mesh
to define the external boundary of the final mesh.  Replaces previous setup with a separate
blockMeshDict.extPatches file.
2017-04-04 10:47:04 +01:00
Chris Greenshields
2afa80426b Case templates: updated dynamicMeshDict for syntax change to solid body motion 2017-03-20 12:27:07 +00:00
Henry Weller
655fc78748 rhoSimpleFoam: added support for compressible liquid flows
rhoSimpleFoam now instantiates the lower-level fluidThermo which instantiates
either a psiThermo or rhoThermo according to the 'type' specification in
thermophysicalProperties, e.g.

thermoType
{
    type            hePsiThermo;
    mixture         pureMixture;
    transport       sutherland;
    thermo          janaf;
    equationOfState perfectGas;
    specie          specie;
    energy          sensibleInternalEnergy;
}

instantiates a psiThermo for a perfect gas with JANAF thermodynamics, whereas

thermoType
{
    type            heRhoThermo;
    mixture         pureMixture;
    properties      liquid;
    energy          sensibleInternalEnergy;
}

mixture
{
    H2O;
}

instantiates a rhoThermo for water, see new tutorial
compressible/rhoSimpleFoam/squareBendLiq.

In order to support complex equations of state the pressure can no longer be
unlimited and rhoSimpleFoam now limits the pressure rather than the density to
handle start-up more robustly.

For backward compatibility 'rhoMin' and 'rhoMax' can still be used in the SIMPLE
sub-dictionary of fvSolution which are converted into 'pMax' and 'pMin' but it
is better to set either 'pMax' and 'pMin' directly or use the more convenient
'pMinFactor' and 'pMinFactor' from which 'pMax' and 'pMin' are calculated using
the fixed boundary pressure or reference pressure e.g.

SIMPLE
{
    nNonOrthogonalCorrectors 0;

    pMinFactor      0.1;
    pMaxFactor      1.5;

    transonic       yes;
    consistent      yes;

    residualControl
    {
        p               1e-3;
        U               1e-4;
        e               1e-3;
        "(k|epsilon|omega)" 1e-3;
    }
}
2017-02-24 11:18:01 +00:00
Henry Weller
abc50e214c thermophysicalModels: Changed specie thermodynamics from mole to mass basis
The fundamental properties provided by the specie class hierarchy were
mole-based, i.e. provide the properties per mole whereas the fundamental
properties provided by the liquidProperties and solidProperties classes are
mass-based, i.e. per unit mass.  This inconsistency made it impossible to
instantiate the thermodynamics packages (rhoThermo, psiThermo) used by the FV
transport solvers on liquidProperties.  In order to combine VoF with film and/or
Lagrangian models it is essential that the physical propertied of the three
representations of the liquid are consistent which means that it is necessary to
instantiate the thermodynamics packages on liquidProperties.  This requires
either liquidProperties to be rewritten mole-based or the specie classes to be
rewritten mass-based.  Given that most of OpenFOAM solvers operate
mass-based (solve for mass-fractions and provide mass-fractions to sub-models it
is more consistent and efficient if the low-level thermodynamics is also
mass-based.

This commit includes all of the changes necessary for all of the thermodynamics
in OpenFOAM to operate mass-based and supports the instantiation of
thermodynamics packages on liquidProperties.

Note that most users, developers and contributors to OpenFOAM will not notice
any difference in the operation of the code except that the confusing

    nMoles     1;

entries in the thermophysicalProperties files are no longer needed or used and
have been removed in this commet.  The only substantial change to the internals
is that species thermodynamics are now "mixed" with mass rather than mole
fractions.  This is more convenient except for defining reaction equilibrium
thermodynamics for which the molar rather than mass composition is usually know.
The consequence of this can be seen in the adiabaticFlameT, equilibriumCO and
equilibriumFlameT utilities in which the species thermodynamics are
pre-multiplied by their molecular mass to effectively convert them to mole-basis
to simplify the definition of the reaction equilibrium thermodynamics, e.g. in
equilibriumCO

    // Reactants (mole-based)
    thermo FUEL(thermoData.subDict(fuelName)); FUEL *= FUEL.W();

    // Oxidant (mole-based)
    thermo O2(thermoData.subDict("O2")); O2 *= O2.W();
    thermo N2(thermoData.subDict("N2")); N2 *= N2.W();

    // Intermediates (mole-based)
    thermo H2(thermoData.subDict("H2")); H2 *= H2.W();

    // Products (mole-based)
    thermo CO2(thermoData.subDict("CO2")); CO2 *= CO2.W();
    thermo H2O(thermoData.subDict("H2O")); H2O *= H2O.W();
    thermo CO(thermoData.subDict("CO")); CO *= CO.W();

    // Product dissociation reactions

    thermo CO2BreakUp
    (
        CO2 == CO + 0.5*O2
    );

    thermo H2OBreakUp
    (
        H2O == H2 + 0.5*O2
    );

Please report any problems with this substantial but necessary rewrite of the
thermodynamic at https://bugs.openfoam.org

Henry G. Weller
CFD Direct Ltd.
2017-02-17 11:22:14 +00:00
Chris Greenshields
0bb828d34a Template cases: commenting out scalarLevels to prevent 0 directory
being filled with cellLevel files, which generally breaks workflows
2016-06-15 18:06:12 +01:00
Chris Greenshields
6124199757 Template cases: removed solver entries using default values from fvSolution 2016-06-15 16:28:42 +01:00
Henry Weller
18725ed3ac functionObjects: Renamed dictionary entry 'functionObjectLibs' -> 'libs'
This changes simplifies the specification of functionObjects in
controlDict and is consistent with the 'libs' option in controlDict to
load special solver libraries.

Support for the old 'functionObjectLibs' name is supported for backward compatibility.
2016-05-16 22:09:01 +01:00
Henry Weller
758dfc2c1f Standardized the naming of functions which control the writing of fields etc.
to have the prefix 'write' rather than 'output'

So outputTime() -> writeTime()

but 'outputTime()' is still supported for backward-compatibility.

Also removed the redundant secondary-writing functionality from Time
which has been superseded by the 'writeRegisteredObject' functionObject.
2016-05-12 17:38:01 +01:00
Henry Weller
71290b4d9e functionObjects: Changed options 'outputControl' -> 'writeControl' and 'outputInterval' -> 'writeInterval'
for consistency with the time controls in controlDict and to avoid
unnecessary confusion.  All code and tutorials have been updated.

The old names 'outputControl' and 'outputInterval' are but supported for
backward compatibility but deprecated.
2016-05-12 11:38:11 +01:00
Henry Weller
fa0656c358 scripts: Reformat with consistent section separators 2016-02-15 18:30:24 +00:00
Henry Weller
28006ee0a5 tutorials and templates: Updated wall BC for velocity to noSlip 2016-02-09 20:08:34 +00:00
Chris Greenshields
142ff92750 compressibleInflowOutflow template case: corrected turbulent fields and fvSchemes 2015-11-15 22:06:43 +00:00
Chris Greenshields
9d4c025db2 template cases: moved blockMeshDict.extPatches to system directory 2015-11-13 18:25:05 +00:00
Chris Greenshields
a43939b2c5 closedVolume template case: removed word entries from dimensionedScalars in transportProperties 2015-11-13 17:44:06 +00:00
Chris Greenshields
2cecaf408c blockMeshDict files moved to system directory (new default location) in template cases and unit test cases 2015-11-13 16:05:59 +00:00
Chris Greenshields
d69bbc00ac compressibleInflowOutflow template case: updated turbulenceProperties to new TurbulenceModels library 2015-11-03 09:21:36 +00:00
Chris Greenshields
a9ea7f8dfe template cases: corrected BirdCarreauCoeffs names (m -> k) 2015-10-15 12:10:12 +01:00
Chris Greenshields
a15ee7de5e Template inflow-outflow case for compressible flow with rhoSimpleFoam 2015-08-06 17:49:14 +01:00
Chris Greenshields
f4deefbe6f inflowOutflow templates: added inlet and outlet groups in snappyHexMeshDict 2015-08-05 18:44:14 +01:00
Henry Weller
2b1ee6b497 tutorials: Removed unnecessary spaces between parentheses and values in vectors 2015-07-21 20:55:44 +01:00
Henry Weller
ecee2d275e Input of dimensionedScalars: update read-construction of dimensionedScalar in applications
so that the specification of the name and dimensions are optional in property dictionaries.

Update tutorials so that the name of the dimensionedScalar property is
no longer duplicated but optional dimensions are still provided and are
checked on read.
2015-07-20 22:52:53 +01:00
Chris Greenshields
491d82363b Template case files: added model coeffs to transportProperties 2015-07-20 13:29:23 +01:00
Chris Greenshields
6a24623d66 surfaceFeatureExtractDict templates: added trimFeatures options 2015-07-18 18:58:20 +01:00
Henry Weller
f3868f2114 fvSchemes: Removed fluxRequired entries 2015-07-16 10:55:49 +01:00
Chris Greenshields
407dccefce Updated template cases for new turbulenceProperties file, fvSchemes syntax and MRFProperties.
With contribution from Richard Jones
2015-07-06 10:23:40 +01:00
Chris Greenshields
1cb715186d Template case files to help general setup of OpenFOAM cases
The templates include a stategy to simplify meshing with snappyHexMesh,
particularly to help generate an initial mesh quickly that can subsequently be
improved.  The templates are setup to enable rapid initial simulations, typically
with simpleFoam.  The initial templates cover simple inflow-outflow and closed
domains, including rotating geometry, and an example axisymmetric flow.  For
more details, consult the README file accompanying each template case.
The cases are located in $FOAM_ETC/templates
2015-05-18 18:34:09 +01:00