WIP: Updated lagrangian solvers followinf library changes

WIP: deprecated lagrangian coal combustion - models added to reactingMultiphase
ENH: Added new parcelFoam solver based on kinematicParcelFoam
2022-09-12 21:16:09 +01:00 · 2022-09-12 21:16:09 +01:00 · 2022-09-12 21:16:09 +01:00 · 2022-09-12 21:16:09 +01:00 · 2022-09-12 21:16:09 +01:00 · 2022-09-12 21:16:09 +01:00
12650 changed files with 69871 additions and 132112 deletions
--- a/.gitlab/issue_templates/bug.md
+++ b/.gitlab/issue_templates/bug.md
@ -49,7 +49,7 @@
 <!--
  Providing details of your set-up can help us identify any issues, e.g.
-  OpenFOAM version : v2212|v2206|v2112|v2106|v2012 etc
+  OpenFOAM version : v2206|v2112|v2106|v2012|v2006 etc
  Operating system : ubuntu|openSUSE|centos etc
  Hardware info    : any info that may help?
  Compiler         : gcc|intel|clang etc
--- a/META-INFO/api-info
+++ b/META-INFO/api-info
@ -1,2 +1,2 @@
-api=2301
+api=2206
-patch=230110
+patch=0
--- a/README.md
+++ b/README.md
@ -40,9 +40,9 @@ Violations of the Trademark are monitored, and will be duly prosecuted.
 If OpenFOAM has already been compiled on your system, simply source
 the appropriate `etc/bashrc` or `etc/cshrc` file and get started.
-For example, for the OpenFOAM-v2212 version:
+For example, for the OpenFOAM-v2206 version:
 ```
-source /installation/path/OpenFOAM-v2212/etc/bashrc
+source /installation/path/OpenFOAM-v2206/etc/bashrc
 ```
 ## Compiling OpenFOAM
@ -127,8 +127,8 @@ These 3rd-party sources are normally located in a directory parallel
 to the OpenFOAM directory. For example,
 ```
 /path/parent
-|-- OpenFOAM-v2212
+|-- OpenFOAM-v2206
-\-- ThirdParty-v2212
+\-- ThirdParty-v2206
 ```
 There are, however, many cases where this simple convention is inadequate:
@ -136,7 +136,7 @@ There are, however, many cases where this simple convention is inadequate:
  operating system or cluster installation provides it)
 * When we have changed the OpenFOAM directory name to some arbitrary
-  directory name, e.g. openfoam-sandbox2212, etc..
+  directory name, e.g. openfoam-sandbox2206, etc..
 * When we would like any additional 3rd party software to be located
  inside of the OpenFOAM directory to ensure that the installation is
@ -156,9 +156,9 @@ when locating the ThirdParty directory with the following precedence:
 2. PREFIX/ThirdParty-VERSION
   * this corresponds to the traditional approach
 3. PREFIX/ThirdParty-vAPI
-   * allows for an updated value of VERSION, *eg*, `v2212-myCustom`,
+   * allows for an updated value of VERSION, *eg*, `v2206-myCustom`,
     without requiring a renamed ThirdParty. The API value would still
-     be `2212` and the original `ThirdParty-v2212/` would be found.
+     be `2206` and the original `ThirdParty-v2206/` would be found.
 4. PREFIX/ThirdParty-API
   * same as the previous example, but using an unadorned API value.
 5. PREFIX/ThirdParty-common
--- a/applications/solvers/acoustic/acousticFoam/Make/options
+++ b/applications/solvers/acoustic/acousticFoam/Make/options
@ -11,5 +11,4 @@ EXE_LIBS = \
    -lfvOptions \
    -lmeshTools \
    -lsampling \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/Make/options
+++ b/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/Make/options
@ -3,7 +3,6 @@ EXE_INC = \
    -I$(LIB_SRC)/meshTools/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
    -I$(LIB_SRC)/overset/lnInclude \
    -I$(LIB_SRC)/overset/include/lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
--- a/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/createFields.H
+++ b/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/createFields.H
@ -31,25 +31,3 @@
    Info<< "Reading diffusivity DT\n" << endl;
    dimensionedScalar DT("DT", dimViscosity, transportProperties);
    bool oversetPatchErrOutput =
        simple.dict().getOrDefault("oversetPatchErrOutput", false);
    // Dummy phi for oversetPatchErrOutput
    tmp<surfaceScalarField> tdummyPhi;
    if (oversetPatchErrOutput)
    {
        tdummyPhi = tmp<surfaceScalarField>::New
        (
            IOobject
            (
                "dummyPhi",
                runTime.timeName(),
                mesh,
                IOobject::NO_READ,
                IOobject::NO_WRITE
            ),
            mesh,
            dimensionedScalar(dimless, Zero)
        );
    }
--- a/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/overLaplacianDyMFoam.C
+++ b/applications/solvers/basic/laplacianFoam/overLaplacianDyMFoam/overLaplacianDyMFoam.C
@ -6,7 +6,7 @@
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
    Copyright (C) 2011-2015 OpenFOAM Foundation
-    Copyright (C) 2016-2022 OpenCFD Ltd.
+    Copyright (C) 2016-2017 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -58,7 +58,6 @@ Description
 #include "fvOptions.H"
 #include "simpleControl.H"
 #include "dynamicFvMesh.H"
 #include "oversetPatchPhiErr.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -100,11 +99,6 @@ int main(int argc, char *argv[])
            fvOptions.constrain(TEqn);
            TEqn.solve();
            fvOptions.correct(T);
            if (oversetPatchErrOutput)
            {
                oversetPatchPhiErr(TEqn, tdummyPhi.ref());
            }
        }
        #include "write.H"
--- a/applications/solvers/basic/potentialFoam/overPotentialFoam/createFields.H
+++ b/applications/solvers/basic/potentialFoam/overPotentialFoam/createFields.H
@ -1,4 +1,125 @@
-#include "../createFields.H"
+Info<< "Reading velocity field U\n" << endl;
 volVectorField U
 (
    IOobject
    (
        "U",
        runTime.timeName(),
        mesh,
        IOobject::MUST_READ,
        IOobject::AUTO_WRITE
    ),
    mesh
 );
 // Initialise the velocity internal field to zero
 U = dimensionedVector(U.dimensions(), Zero);
 surfaceScalarField phi
 (
    IOobject
    (
        "phi",
        runTime.timeName(),
        mesh,
        IOobject::NO_READ,
        IOobject::AUTO_WRITE
    ),
    fvc::flux(U)
 );
 if (args.found("initialiseUBCs"))
 {
    U.correctBoundaryConditions();
    phi = fvc::flux(U);
 }
 // Construct a pressure field
 // If it is available read it otherwise construct from the velocity BCs
 // converting fixed-value BCs to zero-gradient and vice versa.
 // Allow override from command-line -pName option
 const word pName = args.getOrDefault<word>("pName", "p");
 // Infer the pressure BCs from the velocity
 wordList pBCTypes
 (
    U.boundaryField().size(),
    fixedValueFvPatchScalarField::typeName
 );
 forAll(U.boundaryField(), patchi)
 {
    if (U.boundaryField()[patchi].fixesValue())
    {
        pBCTypes[patchi] = zeroGradientFvPatchScalarField::typeName;
    }
 }
 // Note that registerObject is false for the pressure field. The pressure
 // field in this solver doesn't have a physical value during the solution.
 // It shouldn't be looked up and used by sub models or boundary conditions.
 Info<< "Constructing pressure field " << pName << nl << endl;
 volScalarField p
 (
    IOobject
    (
        pName,
        runTime.timeName(),
        mesh,
        IOobject::READ_IF_PRESENT,
        IOobject::NO_WRITE,
        false
    ),
    mesh,
    dimensionedScalar(sqr(dimVelocity), Zero),
    pBCTypes
 );
 // Infer the velocity potential BCs from the pressure
 wordList PhiBCTypes
 (
    p.boundaryField().size(),
    zeroGradientFvPatchScalarField::typeName
 );
 forAll(p.boundaryField(), patchi)
 {
    if (p.boundaryField()[patchi].fixesValue())
    {
        PhiBCTypes[patchi] = fixedValueFvPatchScalarField::typeName;
    }
 }
 Info<< "Constructing velocity potential field Phi\n" << endl;
 volScalarField Phi
 (
    IOobject
    (
        "Phi",
        runTime.timeName(),
        mesh,
        IOobject::READ_IF_PRESENT,
        IOobject::NO_WRITE
    ),
    mesh,
    dimensionedScalar(dimLength*dimVelocity, Zero),
    PhiBCTypes
 );
 label PhiRefCell = 0;
 scalar PhiRefValue = 0;
 setRefCell
 (
    Phi,
    potentialFlow.dict(),
    PhiRefCell,
    PhiRefValue
 );
 mesh.setFluxRequired(Phi.name());
 #include "createMRF.H"
 // Add solver-specific interpolations
 {
--- a/applications/solvers/basic/potentialFoam/overPotentialFoam/overPotentialFoam.C
+++ b/applications/solvers/basic/potentialFoam/overPotentialFoam/overPotentialFoam.C
@ -5,7 +5,7 @@
    \\  /    A nd           | www.openfoam.com
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
-    Copyright (C) 2017-2022 OpenCFD Ltd
+    Copyright (C) 2017 OpenCFD Ltd
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -83,7 +83,6 @@ Description
    \heading Options
    \plaintable
        -writep   | write the Euler pressure
        -writephi | Write the final volumetric flux
        -writePhi | Write the final velocity potential
        -initialiseUBCs | Update the velocity boundaries before solving for Phi
    \endplaintable
@ -118,12 +117,6 @@ int main(int argc, char *argv[])
        "Initialise U boundary conditions"
    );
    argList::addBoolOption
    (
        "writephi",
        "Write the final volumetric flux field"
    );
    argList::addBoolOption
    (
        "writePhi",
@ -142,8 +135,6 @@ int main(int argc, char *argv[])
        "Execute functionObjects"
    );
    #include "addRegionOption.H"
    #include "addCheckCaseOptions.H"
    #include "setRootCaseLists.H"
    #include "createTime.H"
    #include "createNamedDynamicFvMesh.H"
@ -158,6 +149,7 @@ int main(int argc, char *argv[])
    mesh.update();
    surfaceScalarField faceMask(localMin<scalar>(mesh).interpolate(cellMask));
    // Since solver contains no time loop it would never execute
    // function objects so do it ourselves
@ -203,16 +195,11 @@ int main(int argc, char *argv[])
            << endl;
    }
-    // Write U
+    // Write U and phi
    U.write();
    phi.write();
-    // Optionally write the volumetric flux, phi
+    // Optionally write Phi
    if (args.found("writephi"))
    {
        phi.write();
    }
    // Optionally write velocity potential, Phi
    if (args.found("writePhi"))
    {
        Phi.write();
--- a/applications/solvers/combustion/PDRFoam/PDRFoamAutoRefine.C
+++ b/applications/solvers/combustion/PDRFoam/PDRFoamAutoRefine.C
@ -116,7 +116,7 @@ int main(int argc, char *argv[])
            "normalisedGradP",
            tmagGradP()/max(tmagGradP())
        );
-        normalisedGradP.writeOpt(IOobject::AUTO_WRITE);
+        normalisedGradP.writeOpt() = IOobject::AUTO_WRITE;
        tmagGradP.clear();
        ++runTime;
--- a/applications/solvers/combustion/PDRFoam/XiModels/XiEqModels/XiEqModel/XiEqModel.C
+++ b/applications/solvers/combustion/PDRFoam/XiModels/XiEqModels/XiEqModel/XiEqModel.C
@ -109,7 +109,7 @@ Foam::XiEqModel::calculateSchelkinEffect(const scalar uPrimeCoef) const
                mesh,
                IOobject::NO_READ,
                IOobject::NO_WRITE,
-                IOobject::NO_REGISTER
+                false
            ),
            mesh,
            dimensionedScalar(Nv.dimensions(), Zero)
--- a/applications/solvers/combustion/XiFoam/bEqn.H
+++ b/applications/solvers/combustion/XiFoam/bEqn.H
@ -171,7 +171,10 @@ if (ign.ignited())
        fvOptions.correct(Su);
-        Su.clamp_range(SuMin, SuMax);
+        // Limit the maximum Su
        // ~~~~~~~~~~~~~~~~~~~~
        Su.min(SuMax);
        Su.max(SuMin);
    }
    else
    {
@ -215,7 +218,7 @@ if (ign.ignited())
          + (
                scalar(1)
              + (2*XiShapeCoef)
-               *(scalar(0.5) - clamp(b, zero_one{}))
+               *(scalar(0.5) - min(max(b, scalar(0)), scalar(1)))
            )*(XiEqStar - scalar(1.001))
        );
--- a/applications/solvers/combustion/chemFoam/createBaseFields.H
+++ b/applications/solvers/combustion/chemFoam/createBaseFields.H
@ -12,7 +12,7 @@ Info<< "Creating base fields for time " << runTime.timeName() << endl;
            mesh,
            IOobject::READ_IF_PRESENT,
            IOobject::NO_WRITE,
-            IOobject::NO_REGISTER
+            false
        ),
        mesh,
        dimensionedScalar("Ydefault", dimless, 1)
@ -29,7 +29,7 @@ Info<< "Creating base fields for time " << runTime.timeName() << endl;
            mesh,
            IOobject::READ_IF_PRESENT,
            IOobject::NO_WRITE,
-            IOobject::NO_REGISTER
+            false
        ),
        mesh,
        dimensionedScalar("p", dimPressure, p0)
@ -46,7 +46,7 @@ Info<< "Creating base fields for time " << runTime.timeName() << endl;
            mesh,
            IOobject::READ_IF_PRESENT,
            IOobject::NO_WRITE,
-            IOobject::NO_REGISTER
+            false
        ),
        mesh,
        dimensionedScalar("T", dimTemperature, T0)
--- a/applications/solvers/combustion/fireFoam/Make/options
+++ b/applications/solvers/combustion/fireFoam/Make/options
@ -1,8 +1,8 @@
 EXE_INC = \
    -I$(LIB_SRC)/finiteVolume/lnInclude \
    -I$(LIB_SRC)/finiteArea/lnInclude \
-    -I$(LIB_SRC)/meshTools/lnInclude \
+    -I${LIB_SRC}/meshTools/lnInclude \
-    -I$(LIB_SRC)/sampling/lnInclude \
+    -I${LIB_SRC}/sampling/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
--- a/applications/solvers/combustion/fireFoam/YEEqn.H
+++ b/applications/solvers/combustion/fireFoam/YEEqn.H
@ -39,13 +39,13 @@ tmp<fv::convectionScheme<scalar>> mvConvection
            fvOptions.correct(Yi);
-            Yi.clamp_min(0);
+            Yi.max(0.0);
            Yt += Yi;
        }
    }
    Y[inertIndex] = scalar(1) - Yt;
-    Y[inertIndex].clamp_min(0);
+    Y[inertIndex].max(0.0);
    radiation->correct();
--- a/applications/solvers/combustion/fireFoam/createClouds.H
+++ b/applications/solvers/combustion/fireFoam/createClouds.H
@ -1,9 +1,9 @@
 Info<< "\nConstructing reacting cloud" << endl;
-basicReactingCloud parcels
+reactingCloud parcels
 (
    "reactingCloud1",
    g,
    rho,
    U,
    g,
    slgThermo
 );
--- a/applications/solvers/combustion/fireFoam/fireFoam.C
+++ b/applications/solvers/combustion/fireFoam/fireFoam.C
@ -37,7 +37,7 @@ Description
 #include "fvCFD.H"
 #include "turbulentFluidThermoModel.H"
-#include "basicReactingCloud.H"
+#include "reactingCloud.H"
 #include "surfaceFilmModel.H"
 #include "pyrolysisModelCollection.H"
 #include "radiationModel.H"
--- a/applications/solvers/combustion/reactingFoam/YEqn.H
+++ b/applications/solvers/combustion/reactingFoam/YEqn.H
@ -38,11 +38,11 @@ tmp<fv::convectionScheme<scalar>> mvConvection
            fvOptions.correct(Yi);
-            Yi.clamp_min(0);
+            Yi.max(0.0);
            Yt += Yi;
        }
    }
    Y[inertIndex] = scalar(1) - Yt;
-    Y[inertIndex].clamp_min(0);
+    Y[inertIndex].max(0.0);
 }
--- a/applications/solvers/compressible/rhoCentralFoam/BCs/T/smoluchowskiJumpTFvPatchScalarField.C
+++ b/applications/solvers/compressible/rhoCentralFoam/BCs/T/smoluchowskiJumpTFvPatchScalarField.C
@ -103,7 +103,14 @@ Foam::smoluchowskiJumpTFvPatchScalarField::smoluchowskiJumpTFvPatchScalarField
            << exit(FatalIOError);
    }
-    if (!this->readValueEntry(dict))
+    if (dict.found("value"))
    {
        fvPatchField<scalar>::operator=
        (
            scalarField("value", dict, p.size())
        );
    }
    else
    {
        fvPatchField<scalar>::operator=(patchInternalField());
    }
@ -158,10 +165,14 @@ void Foam::smoluchowskiJumpTFvPatchScalarField::updateCoeffs()
        return;
    }
-    const auto& pmu = patch().lookupPatchField<volScalarField>(muName_);
+    const fvPatchScalarField& pmu =
-    const auto& prho = patch().lookupPatchField<volScalarField>(rhoName_);
+        patch().lookupPatchField<volScalarField, scalar>(muName_);
-    const auto& ppsi = patch().lookupPatchField<volScalarField>(psiName_);
+    const fvPatchScalarField& prho =
-    const auto& pU = patch().lookupPatchField<volVectorField>(UName_);
+        patch().lookupPatchField<volScalarField, scalar>(rhoName_);
    const fvPatchField<scalar>& ppsi =
        patch().lookupPatchField<volScalarField, scalar>(psiName_);
    const fvPatchVectorField& pU =
        patch().lookupPatchField<volVectorField, vector>(UName_);
    // Prandtl number reading consistent with rhoCentralFoam
    const dictionary& thermophysicalProperties =
@ -196,7 +207,7 @@ void Foam::smoluchowskiJumpTFvPatchScalarField::updateCoeffs()
 // Write
 void Foam::smoluchowskiJumpTFvPatchScalarField::write(Ostream& os) const
 {
-    fvPatchField<scalar>::write(os);
+    fvPatchScalarField::write(os);
    os.writeEntryIfDifferent<word>("U", "U", UName_);
    os.writeEntryIfDifferent<word>("rho", "rho", rhoName_);
@ -206,7 +217,7 @@ void Foam::smoluchowskiJumpTFvPatchScalarField::write(Ostream& os) const
    os.writeEntry("accommodationCoeff", accommodationCoeff_);
    Twall_.writeEntry("Twall", os);
    os.writeEntry("gamma", gamma_);
-    fvPatchField<scalar>::writeValueEntry(os);
+    writeEntry("value", os);
 }
--- a/applications/solvers/compressible/rhoCentralFoam/BCs/U/maxwellSlipUFvPatchVectorField.C
+++ b/applications/solvers/compressible/rhoCentralFoam/BCs/U/maxwellSlipUFvPatchVectorField.C
@ -105,15 +105,18 @@ Foam::maxwellSlipUFvPatchVectorField::maxwellSlipUFvPatchVectorField
            << exit(FatalIOError);
    }
-    if (this->readValueEntry(dict))
+    if (dict.found("value"))
    {
-        const auto* hasRefValue = dict.findEntry("refValue", keyType::LITERAL);
+        fvPatchField<vector>::operator=
-        const auto* hasFrac = dict.findEntry("valueFraction", keyType::LITERAL);
+        (
            vectorField("value", dict, p.size())
        );
-        if (hasRefValue && hasFrac)
+        if (dict.found("refValue") && dict.found("valueFraction"))
        {
-            this->refValue().assign(*hasRefValue, p.size());
+            this->refValue() = vectorField("refValue", dict, p.size());
-            this->valueFraction().assign(*hasFrac, p.size());
+            this->valueFraction() =
                scalarField("valueFraction", dict, p.size());
        }
        else
        {
@ -152,9 +155,12 @@ void Foam::maxwellSlipUFvPatchVectorField::updateCoeffs()
        return;
    }
-    const auto& pmu = patch().lookupPatchField<volScalarField>(muName_);
+    const fvPatchScalarField& pmu =
-    const auto& prho = patch().lookupPatchField<volScalarField>(rhoName_);
+        patch().lookupPatchField<volScalarField, scalar>(muName_);
-    const auto& ppsi = patch().lookupPatchField<volScalarField>(psiName_);
+    const fvPatchScalarField& prho =
        patch().lookupPatchField<volScalarField, scalar>(rhoName_);
    const fvPatchField<scalar>& ppsi =
        patch().lookupPatchField<volScalarField, scalar>(psiName_);
    Field<scalar> C1
    (
@ -181,8 +187,8 @@ void Foam::maxwellSlipUFvPatchVectorField::updateCoeffs()
    if (curvature_)
    {
-        const auto& ptauMC =
+        const fvPatchTensorField& ptauMC =
-            patch().lookupPatchField<volTensorField>(tauMCName_);
+            patch().lookupPatchField<volTensorField, tensor>(tauMCName_);
        vectorField n(patch().nf());
        refValue() -= C1/prho*transform(I - n*n, (n & ptauMC));
@ -194,7 +200,7 @@ void Foam::maxwellSlipUFvPatchVectorField::updateCoeffs()
 void Foam::maxwellSlipUFvPatchVectorField::write(Ostream& os) const
 {
-    fvPatchField<vector>::write(os);
+    fvPatchVectorField::write(os);
    os.writeEntryIfDifferent<word>("T", "T", TName_);
    os.writeEntryIfDifferent<word>("rho", "rho", rhoName_);
    os.writeEntryIfDifferent<word>("psi", "thermo:psi", psiName_);
@ -209,7 +215,7 @@ void Foam::maxwellSlipUFvPatchVectorField::write(Ostream& os) const
    refValue().writeEntry("refValue", os);
    valueFraction().writeEntry("valueFraction", os);
-    fvPatchField<vector>::writeValueEntry(os);
+    writeEntry("value", os);
 }
--- a/applications/solvers/compressible/rhoCentralFoam/BCs/rho/fixedRhoFvPatchScalarField.C
+++ b/applications/solvers/compressible/rhoCentralFoam/BCs/rho/fixedRhoFvPatchScalarField.C
@ -104,8 +104,11 @@ void Foam::fixedRhoFvPatchScalarField::updateCoeffs()
        return;
    }
-    const auto& psip = patch().lookupPatchField<volScalarField>(psiName_);
+    const fvPatchField<scalar>& psip =
-    const auto& pp = patch().lookupPatchField<volScalarField>(pName_);
+        patch().lookupPatchField<volScalarField, scalar>(psiName_);
    const fvPatchField<scalar>& pp =
        patch().lookupPatchField<volScalarField, scalar>(pName_);
    operator==(psip*pp);
@ -115,10 +118,11 @@ void Foam::fixedRhoFvPatchScalarField::updateCoeffs()
 void Foam::fixedRhoFvPatchScalarField::write(Ostream& os) const
 {
-    fvPatchField<scalar>::write(os);
+    fvPatchScalarField::write(os);
    os.writeEntryIfDifferent<word>("p", "p", pName_);
    os.writeEntryIfDifferent<word>("psi", "thermo:psi", psiName_);
-    fvPatchField<scalar>::writeValueEntry(os);
+    writeEntry("value", os);
 }
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
--- a/applications/solvers/compressible/rhoPimpleFoam/Make/options
+++ b/applications/solvers/compressible/rhoPimpleFoam/Make/options
@ -9,7 +9,7 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
@ -26,5 +26,4 @@ EXE_LIBS = \
    -ltopoChangerFvMesh \
    -lsampling \
    -latmosphericModels \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/createControls.H
+++ b/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/createControls.H
@ -0,0 +1,4 @@
 bool ddtCorr
 (
    pimple.dict().getOrDefault("ddtCorr", true)
 );
--- a/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/createFields.H
+++ b/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/createFields.H
@ -69,8 +69,6 @@ mesh.setFluxRequired(p.name());
 // Mask field for zeroing out contributions on hole cells
 #include "createCellMask.H"
 // Create bool field with interpolated cells
 #include "createInterpolatedCells.H"
 Info<< "Creating turbulence model\n" << endl;
 autoPtr<compressible::turbulenceModel> turbulence
--- a/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/overRhoPimpleDyMFoam.C
+++ b/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/overRhoPimpleDyMFoam.C
@ -6,7 +6,7 @@
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
    Copyright (C) 2011-2015 OpenFOAM Foundation
-    Copyright (C) 2016-2022 OpenCFD Ltd.
+    Copyright (C) 2016-2017 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -43,6 +43,7 @@ Description
 #include "dynamicFvMesh.H"
 #include "fluidThermo.H"
 #include "turbulentFluidThermoModel.H"
 #include "bound.H"
 #include "pimpleControl.H"
 #include "pressureControl.H"
 #include "CorrectPhi.H"
@ -88,8 +89,10 @@ int main(int argc, char *argv[])
    while (runTime.run())
    {
        #include "readControls.H"
        #include "readDyMControls.H"
        // Store divrhoU from the previous mesh so that it can be mapped
        // and used in correctPhi to ensure the corrected phi has the
        // same divergence
@ -125,6 +128,7 @@ int main(int argc, char *argv[])
        {
            if (pimple.firstIter() || moveMeshOuterCorrectors)
            {
                // Do any mesh changes
                mesh.update();
@ -133,22 +137,52 @@ int main(int argc, char *argv[])
                    MRF.update();
                    #include "setCellMask.H"
-                    #include "setInterpolatedCells.H"
+
-                    #include "correctRhoPhiFaceMask.H"
+                    const surfaceScalarField faceMaskOld
                    (
                        localMin<scalar>(mesh).interpolate(cellMask.oldTime())
                    );
                    // Zero Uf on old faceMask (H-I)
                    rhoUf() *= faceMaskOld;
                    surfaceVectorField rhoUfint(fvc::interpolate(rho*U));
                    // Update Uf and phi on new C-I faces
                    rhoUf() += (1-faceMaskOld)*rhoUfint;
                    // Update Uf boundary
                    forAll(rhoUf().boundaryField(), patchI)
                    {
                        rhoUf().boundaryFieldRef()[patchI] =
                            rhoUfint.boundaryField()[patchI];
                    }
                    // Calculate absolute flux from the mapped surface velocity
                    phi = mesh.Sf() & rhoUf();
                    if (correctPhi)
                    {
                        // Corrects flux on separated regions
                        #include "correctPhi.H"
                    }
                    // Zero phi on current H-I
                    const surfaceScalarField faceMask
                    (
                        localMin<scalar>(mesh).interpolate(cellMask)
                    );
                    phi *= faceMask;
                    U   *= cellMask;
                     // Make the fluxes relative to the mesh-motion
                    fvc::makeRelative(phi, rho, U);
-                    if (checkMeshCourantNo)
+                }
-                    {
+
-                        #include "meshCourantNo.H"
+                if (checkMeshCourantNo)
-                    }
+                {
                    #include "meshCourantNo.H"
                }
            }
--- a/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/pEqn.H
+++ b/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/pEqn.H
@ -25,6 +25,17 @@ surfaceScalarField phiHbyA
    fvc::interpolate(rho)*fvc::flux(HbyA)
 );
 if (ddtCorr)
 {
    surfaceScalarField faceMaskOld
    (
        localMin<scalar>(mesh).interpolate(cellMask.oldTime())
    );
    phiHbyA +=
        faceMaskOld*MRF.zeroFilter(rhorAUf*fvc::ddtCorr(rho, U, phi, rhoUf));
 }
 fvc::makeRelative(phiHbyA, rho, U);
 MRF.makeRelative(fvc::interpolate(rho), phiHbyA);
@ -123,4 +134,8 @@ if (thermo.dpdt())
    }
 }
 surfaceScalarField faceMask
 (
    localMin<scalar>(mesh).interpolate(cellMask)
 );
 phi *= faceMask;
--- a/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/readControls.H
+++ b/applications/solvers/compressible/rhoPimpleFoam/overRhoPimpleDyMFoam/readControls.H
@ -0,0 +1,9 @@
 #include "readTimeControls.H"
 correctPhi = pimple.dict().getOrDefault("correctPhi", false);
 checkMeshCourantNo =
    pimple.dict().getOrDefault("checkMeshCourantNo", false);
 ddtCorr = pimple.dict().getOrDefault("ddtCorr", true);
--- a/applications/solvers/compressible/rhoSimpleFoam/Make/options
+++ b/applications/solvers/compressible/rhoSimpleFoam/Make/options
@ -7,7 +7,7 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
@ -21,5 +21,4 @@ EXE_LIBS = \
    -lcompressibleTurbulenceModels \
    -lthermoTools \
    -latmosphericModels \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/finiteArea/liquidFilmFoam/capillaryCourantNo.H
+++ b/applications/solvers/finiteArea/liquidFilmFoam/capillaryCourantNo.H
@ -4,7 +4,7 @@
        sqrt
        (
            2*M_PI*sigma*sqr(aMesh.edgeInterpolation::deltaCoeffs())
-            *mag(aMesh.edgeInterpolation::deltaCoeffs())
+            *aMesh.edgeInterpolation::deltaCoeffs()
            /rhol
        )
    ).value()*runTime.deltaT().value();
--- a/applications/solvers/finiteArea/liquidFilmFoam/createFvFields.H
+++ b/applications/solvers/finiteArea/liquidFilmFoam/createFvFields.H
@ -1,6 +1,3 @@
 // Volume-to surface mapping object
 const volSurfaceMapping vsm(aMesh);
 volVectorField U
 (
    IOobject
@ -29,3 +26,6 @@ volScalarField H
    mesh,
    dimensionedScalar(dimLength, Zero)
 );
 // Create volume-to surface mapping object
 volSurfaceMapping vsm(aMesh);
--- a/applications/solvers/finiteArea/sphereSurfactantFoam/createVolFields.H
+++ b/applications/solvers/finiteArea/sphereSurfactantFoam/createVolFields.H
@ -1,5 +1,5 @@
-    // Volume-to surface mapping object
+    // Create volume-to surface mapping object
-    const volSurfaceMapping vsm(aMesh);
+    volSurfaceMapping vsm(aMesh);
    volScalarField Cvf
    (
--- a/applications/solvers/finiteArea/surfactantFoam/createVolFields.H
+++ b/applications/solvers/finiteArea/surfactantFoam/createVolFields.H
@ -1,5 +1,5 @@
-    // Volume-to surface mapping object
+    // Create volume-to surface mapping object
-    const volSurfaceMapping vsm(aMesh);
+    volSurfaceMapping vsm(aMesh);
    volScalarField Cvf
    (
--- a/applications/solvers/heatTransfer/buoyantPimpleFoam/Make/options
+++ b/applications/solvers/heatTransfer/buoyantPimpleFoam/Make/options
@ -10,7 +10,7 @@ EXE_INC = \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/dynamicMesh/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
@ -28,5 +28,4 @@ EXE_LIBS = \
    -ldynamicMesh \
    -ldynamicFvMesh \
    -ltopoChangerFvMesh \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/createFields.H
+++ b/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/createFields.H
@ -124,6 +124,3 @@ dimensionedScalar initialMass("initialMass", fvc::domainIntegrate(rho));
 // Mask field for zeroing out contributions on hole cells
 #include "createCellMask.H"
 // Create bool field with interpolated cells
 #include "createInterpolatedCells.H"
--- a/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/overBuoyantPimpleDyMFoam.C
+++ b/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/overBuoyantPimpleDyMFoam.C
@ -5,7 +5,7 @@
    \\  /    A nd           | www.openfoam.com
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
-    Copyright (C) 2019-2022 OpenCFD Ltd.
+    Copyright (C) 2019 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -50,7 +50,6 @@ Description
 #include "CorrectPhi.H"
 #include "cellCellStencilObject.H"
 #include "localMin.H"
 #include "oversetAdjustPhi.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -87,6 +86,9 @@ int main(int argc, char *argv[])
    while (runTime.run())
    {
        #include "readTimeControls.H"
        #include "readControls.H"
        #include "readDyMControls.H"
        #include "compressibleCourantNo.H"
@ -126,14 +128,45 @@ int main(int argc, char *argv[])
                    MRF.update();
                    #include "setCellMask.H"
-                    #include "setInterpolatedCells.H"
+
-                    #include "correctRhoPhiFaceMask.H"
+                    const surfaceScalarField faceMaskOld
                    (
                        localMin<scalar>(mesh).interpolate(cellMask.oldTime())
                    );
                    // Zero Uf on old faceMask (H-I)
                    rhoUf() *= faceMaskOld;
                    //fvc::correctRhoUf(rhoUfint, rho, U, phi);
                    surfaceVectorField rhoUfint(fvc::interpolate(rho*U));
                    // Update Uf and phi on new C-I faces
                    rhoUf() += (1-faceMaskOld)*rhoUfint;
                    // Update Uf boundary
                    forAll(rhoUf().boundaryField(), patchI)
                    {
                        rhoUf().boundaryFieldRef()[patchI] =
                            rhoUfint.boundaryField()[patchI];
                    }
                    // Calculate absolute flux from the mapped surface velocity
                    phi = mesh.Sf() & rhoUf();
                    if (correctPhi)
                    {
                        #include "correctPhi.H"
                    }
                    // Zero phi on current H-I
                    const surfaceScalarField faceMask
                    (
                        localMin<scalar>(mesh).interpolate(cellMask)
                    );
                    phi *= faceMask;
                    U   *= cellMask;
                     // Make the fluxes relative to the mesh-motion
                    fvc::makeRelative(phi, rho, U);
                }
--- a/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/pEqn.H
+++ b/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/pEqn.H
@ -21,13 +21,16 @@ surfaceScalarField phiHbyA
    fvc::flux(rho*HbyA) + phig
 );
-if (adjustFringe)
+if (ddtCorr)
 {
-    fvc::makeRelative(phiHbyA,rho, U);
+    surfaceScalarField faceMaskOld
-    oversetAdjustPhi(phiHbyA, U);
+    (
-    fvc::makeAbsolute(phiHbyA,rho, U);
+        localMin<scalar>(mesh).interpolate(cellMask.oldTime())
-}
+    );
    phiHbyA +=
        faceMaskOld*MRF.zeroFilter(rhorAUf*fvc::ddtCorr(rho, U, phi));
 }
 MRF.makeRelative(fvc::interpolate(rho), phiHbyA);
@ -119,4 +122,8 @@ if (thermo.dpdt())
    }
 }
 surfaceScalarField faceMask
 (
    localMin<scalar>(mesh).interpolate(cellMask)
 );
 phi *= faceMask;
--- a/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/readControls.H
+++ b/applications/solvers/heatTransfer/buoyantPimpleFoam/overBuoyantPimpleDyMFoam/readControls.H
@ -0,0 +1,9 @@
 #include "readTimeControls.H"
 correctPhi = pimple.dict().getOrDefault("correctPhi", false);
 checkMeshCourantNo =
    pimple.dict().getOrDefault("checkMeshCourantNo", false);
 ddtCorr = pimple.dict().getOrDefault("ddtCorr", true);
--- a/applications/solvers/heatTransfer/buoyantSimpleFoam/Make/options
+++ b/applications/solvers/heatTransfer/buoyantSimpleFoam/Make/options
@ -7,7 +7,7 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
@ -22,5 +22,4 @@ EXE_LIBS = \
    -lcompressibleTurbulenceModels \
    -lthermoTools \
    -latmosphericModels \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/Make/options
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/Make/options
@ -19,7 +19,7 @@ EXE_INC = \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/regionModels/regionModel/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
@ -40,5 +40,4 @@ EXE_LIBS = \
    -lthermoTools \
    -lradiationModels \
    -lregionModels \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionFoam.C
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionFoam.C
@ -113,19 +113,15 @@ int main(int argc, char *argv[])
            forAll(fluidRegions, i)
            {
                fvMesh& mesh = fluidRegions[i];
                #include "readFluidMultiRegionPIMPLEControls.H"
                #include "setRegionFluidFields.H"
                #include "readFluidMultiRegionPIMPLEControls.H"
                #include "solveFluid.H"
            }
            forAll(solidRegions, i)
            {
                fvMesh& mesh = solidRegions[i];
                #include "readSolidMultiRegionPIMPLEControls.H"
                #include "setRegionSolidFields.H"
                #include "readSolidMultiRegionPIMPLEControls.H"
                #include "solveSolid.H"
            }
@ -137,10 +133,8 @@ int main(int argc, char *argv[])
                forAll(fluidRegions, i)
                {
                    fvMesh& mesh = fluidRegions[i];
                    #include "readFluidMultiRegionPIMPLEControls.H"
                    #include "setRegionFluidFields.H"
                    #include "readFluidMultiRegionPIMPLEControls.H"
                    if (!frozenFlow)
                    {
                        Info<< "\nSolving for fluid region "
@ -172,24 +166,20 @@ int main(int argc, char *argv[])
                    forAll(fluidRegions, i)
                    {
                        fvMesh& mesh = fluidRegions[i];
                        Info<< "\nSolving for fluid region "
                            << fluidRegions[i].name() << endl;
-                        #include "readFluidMultiRegionPIMPLEControls.H"
+                       #include "setRegionFluidFields.H"
-                        #include "setRegionFluidFields.H"
+                       #include "readFluidMultiRegionPIMPLEControls.H"
-                        frozenFlow = true;
+                       frozenFlow = true;
-                        #include "solveFluid.H"
+                       #include "solveFluid.H"
                    }
                    forAll(solidRegions, i)
                    {
                        fvMesh& mesh = solidRegions[i];
                        Info<< "\nSolving for solid region "
                            << solidRegions[i].name() << endl;
                        #include "readSolidMultiRegionPIMPLEControls.H"
                        #include "setRegionSolidFields.H"
                        #include "readSolidMultiRegionPIMPLEControls.H"
                        #include "solveSolid.H"
                    }
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/Make/options
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/Make/options
@ -36,5 +36,5 @@ EXE_LIBS = \
    -lfaOptions \
    -lregionModels \
    -lsampling \
-    -lregionFaModels \
+    -lregionFaModels
-    -lfiniteArea
+
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/chtMultiRegionSimpleFoam.C
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/chtMultiRegionSimpleFoam.C
@ -76,21 +76,17 @@ int main(int argc, char *argv[])
        forAll(fluidRegions, i)
        {
            fvMesh& mesh = fluidRegions[i];
            Info<< "\nSolving for fluid region "
                << fluidRegions[i].name() << endl;
            #include "readFluidMultiRegionSIMPLEControls.H"
            #include "setRegionFluidFields.H"
            #include "readFluidMultiRegionSIMPLEControls.H"
            #include "solveFluid.H"
        }
        forAll(solidRegions, i)
        {
            fvMesh& mesh = solidRegions[i];
            #include "readSolidMultiRegionSIMPLEControls.H"
            #include "setRegionSolidFields.H"
            #include "readSolidMultiRegionSIMPLEControls.H"
            #include "solveSolid.H"
        }
@ -103,10 +99,8 @@ int main(int argc, char *argv[])
            forAll(fluidRegions, i)
            {
                fvMesh& mesh = fluidRegions[i];
                #include "readSolidMultiRegionSIMPLEControls.H"
                #include "setRegionFluidFields.H"
                #include "readSolidMultiRegionSIMPLEControls.H"
                if (!frozenFlow)
                {
                    #include "pEqn.H"
@ -127,24 +121,20 @@ int main(int argc, char *argv[])
                forAll(fluidRegions, i)
                {
                    fvMesh& mesh = fluidRegions[i];
                    Info<< "\nSolving for fluid region "
                        << fluidRegions[i].name() << endl;
-                    #include "readFluidMultiRegionSIMPLEControls.H"
+                   #include "setRegionFluidFields.H"
-                    #include "setRegionFluidFields.H"
+                   #include "readFluidMultiRegionSIMPLEControls.H"
-                    frozenFlow = true;
+                   frozenFlow = true;
-                    #include "solveFluid.H"
+                   #include "solveFluid.H"
                }
                forAll(solidRegions, i)
                {
                    fvMesh& mesh = solidRegions[i];
                    Info<< "\nSolving for solid region "
                        << solidRegions[i].name() << endl;
                    #include "readSolidMultiRegionSIMPLEControls.H"
                    #include "setRegionSolidFields.H"
                    #include "readSolidMultiRegionSIMPLEControls.H"
                    #include "solveSolid.H"
                }
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/fluid/readFluidMultiRegionSIMPLEControls.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/fluid/readFluidMultiRegionSIMPLEControls.H
@ -5,5 +5,3 @@
    const bool momentumPredictor =
        simple.getOrDefault("momentumPredictor", true);
    simple.readIfPresent("frozenFlow", frozenFlowFluid[i]);
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/fluid/setRegionFluidFields.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionSimpleFoam/fluid/setRegionFluidFields.H
@ -1,3 +1,5 @@
    const fvMesh& mesh = fluidRegions[i];
    rhoThermo& thermo = thermoFluid[i];
    thermo.validate(args.executable(), "h", "e");
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/chtMultiRegionTwoPhaseEulerFoam.C
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/chtMultiRegionTwoPhaseEulerFoam.C
@ -5,7 +5,7 @@
    \\  /    A nd           | www.openfoam.com
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
-    Copyright (C) 2018-2022 OpenCFD Ltd.
+    Copyright (C) 2018 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -108,23 +108,19 @@ int main(int argc, char *argv[])
            forAll(fluidRegions, i)
            {
                fvMesh& mesh = fluidRegions[i];
                Info<< "\nSolving for fluid region "
                    << fluidRegions[i].name() << endl;
                #include "readFluidMultiRegionPIMPLEControls.H"
                #include "setRegionFluidFields.H"
                #include "readFluidMultiRegionPIMPLEControls.H"
                #include "solveFluid.H"
            }
            forAll(solidRegions, i)
            {
                fvMesh& mesh = solidRegions[i];
                Info<< "\nSolving for solid region "
                    << solidRegions[i].name() << endl;
                #include "readSolidMultiRegionPIMPLEControls.H"
                #include "setRegionSolidFields.H"
                #include "readSolidMultiRegionPIMPLEControls.H"
                #include "solveSolid.H"
            }
@ -139,24 +135,20 @@ int main(int argc, char *argv[])
                    forAll(fluidRegions, i)
                    {
                        fvMesh& mesh = fluidRegions[i];
                        Info<< "\nSolving for fluid region "
                            << fluidRegions[i].name() << endl;
-                        #include "readFluidMultiRegionPIMPLEControls.H"
+                       #include "setRegionFluidFields.H"
-                        #include "setRegionFluidFields.H"
+                       #include "readFluidMultiRegionPIMPLEControls.H"
-                        frozenFlow = true;
+                       frozenFlow = true;
-                        #include "solveFluid.H"
+                       #include "solveFluid.H"
                    }
                    forAll(solidRegions, i)
                    {
                        fvMesh& mesh = solidRegions[i];
                        Info<< "\nSolving for solid region "
                            << solidRegions[i].name() << endl;
                        #include "readSolidMultiRegionPIMPLEControls.H"
                        #include "setRegionSolidFields.H"
                        #include "readSolidMultiRegionPIMPLEControls.H"
                        #include "solveSolid.H"
                    }
                }
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/derivedFvPatchFields/turbulentTemperatureTwoPhaseRadCoupledMixed/turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField.C
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/derivedFvPatchFields/turbulentTemperatureTwoPhaseRadCoupledMixed/turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField.C
@ -88,29 +88,26 @@ kappa
        case mtLookup:
        {
            if (mesh.foundObject<volScalarField>(kappaName_))
            {
-                const auto* ptr =
+                return patch().lookupPatchField<volScalarField, scalar>
-                    mesh.cfindObject<volScalarField>(kappaName_);
+                (
-
+                    kappaName_
-                if (ptr)
+                );
                {
                    return patch().patchField(*ptr);
                }
            }
            else if (mesh.foundObject<volSymmTensorField>(kappaName_))
            {
-                const auto* ptr =
+                const symmTensorField& KWall =
-                    mesh.cfindObject<volSymmTensorField>(kappaName_);
+                    patch().lookupPatchField<volSymmTensorField, scalar>
                    (
                        kappaName_
                    );
-                if (ptr)
+                const vectorField n(patch().nf());
                {
                    const symmTensorField& KWall = patch().patchField(*ptr);
-                    const vectorField n(patch().nf());
+                return n & KWall & n;
                    return n & KWall & n;
                }
            }
-
+            else
            {
                FatalErrorInFunction
                    << "Did not find field " << kappaName_
@ -120,6 +117,9 @@ kappa
                    << " or volSymmTensorField."
                    << exit(FatalError);
            }
            break;
        }
@ -131,8 +131,10 @@ kappa
                mesh.lookupObject<phaseSystem>("phaseProperties")
            );
-            auto tkappaEff = tmp<scalarField>::New(patch().size(), Zero);
+            tmp<scalarField> kappaEff
-            auto& kappaEff = tkappaEff.ref();
+            (
                new scalarField(patch().size(), 0.0)
            );
            forAll(fluid.phases(), phasei)
            {
@ -140,10 +142,10 @@ kappa
                const fvPatchScalarField& alpha = phase.boundaryField()[patchi];
-                kappaEff += alpha*phase.kappaEff(patchi)();
+                kappaEff.ref() += alpha*phase.kappaEff(patchi)();
            }
-            return tkappaEff;
+            return kappaEff;
            break;
        }
@ -159,11 +161,9 @@ kappa
        }
    }
-    // Return zero-sized (not nullptr)
+    return scalarField(0);
    return tmp<scalarField>::New();
 }
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -243,12 +243,14 @@ turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField
            << exit(FatalError);
    }
    fvPatchScalarField::operator=(scalarField("value", dict, p.size()));
-    this->readValueEntry(dict, IOobjectOption::MUST_READ);
+    if (dict.found("refValue"))
    if (this->readMixedEntries(dict))
    {
        // Full restart
        refValue() = scalarField("refValue", dict, p.size());
        refGrad() = scalarField("refGradient", dict, p.size());
        valueFraction() = scalarField("valueFraction", dict, p.size());
    }
    else
    {
@ -306,11 +308,12 @@ updateCoeffs()
    scalarField& Tp = *this;
-    const auto& nbrField =
+    const turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField&
-        refCast
+        nbrField = refCast
-        <
+            <const turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField>
-            const turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField
+            (
-        >(nbrPatch.lookupPatchField<volScalarField>(TnbrName_));
+                nbrPatch.lookupPatchField<volScalarField, scalar>(TnbrName_)
            );
    // Swap to obtain full local values of neighbour internal field
    scalarField TcNbr(nbrField.patchInternalField());
@ -327,13 +330,13 @@ updateCoeffs()
    scalarField qr(Tp.size(), 0.0);
    if (qrName_ != "none")
    {
-        qr = patch().lookupPatchField<volScalarField>(qrName_);
+        qr = patch().lookupPatchField<volScalarField, scalar>(qrName_);
    }
    scalarField qrNbr(Tp.size(), 0.0);
    if (qrNbrName_ != "none")
    {
-        qrNbr = nbrPatch.lookupPatchField<volScalarField>(qrNbrName_);
+        qrNbr = nbrPatch.lookupPatchField<volScalarField, scalar>(qrNbrName_);
        mpp.distribute(qrNbr);
    }
@ -483,7 +486,7 @@ void turbulentTemperatureTwoPhaseRadCoupledMixedFvPatchScalarField::write
    Ostream& os
 ) const
 {
-    mixedFvPatchField<scalar>::write(os);
+    mixedFvPatchScalarField::write(os);
    os.writeEntry("kappaMethod", KMethodTypeNames_[method_]);
    os.writeEntryIfDifferent<word>("kappa","none", kappaName_);
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/fluid/readFluidMultiRegionPIMPLEControls.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/fluid/readFluidMultiRegionPIMPLEControls.H
@ -9,5 +9,3 @@
    (
        pimpleDict.getOrDefault<int>("nEnergyCorrectors", 1)
    );
    pimpleDict.readIfPresent("frozenFlow", frozenFlowFluid[i]);
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/fluid/setRegionFluidFields.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/chtMultiRegionTwoPhaseEulerFoam/fluid/setRegionFluidFields.H
@ -1,3 +1,5 @@
    fvMesh& mesh = fluidRegions[i];
    twoPhaseSystem& fluid  = phaseSystemFluid[i];
    phaseModel& phase1 = fluid.phase1();
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/YEqn.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/YEqn.H
@ -48,7 +48,7 @@ if (Y.size())
            fvOptions.correct(Yi);
-            Yi.clamp_min(0);
+            Yi.max(0.0);
            Yt += Yi;
        }
    }
@ -56,6 +56,6 @@ if (Y.size())
    if (Y.size())
    {
        Y[inertIndex] = scalar(1) - Yt;
-        Y[inertIndex].clamp_min(0);
+        Y[inertIndex].max(0.0);
    }
 }
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/readFluidMultiRegionPIMPLEControls.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/readFluidMultiRegionPIMPLEControls.H
@ -8,5 +8,3 @@
    const bool momentumPredictor =
        pimple.getOrDefault("momentumPredictor", true);
    pimple.readIfPresent("frozenFlow", frozenFlowFluid[i]);
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/setRegionFluidFields.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/fluid/setRegionFluidFields.H
@ -1,3 +1,5 @@
    fvMesh& mesh = fluidRegions[i];
    CombustionModel<rhoReactionThermo>& reaction = reactionFluid[i];
    rhoReactionThermo& thermo = reaction.thermo();
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/solid/createSolidFields.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/solid/createSolidFields.H
@ -35,7 +35,7 @@
                (
                    solidRegions[i],
                    thermos[i],
-                    coordinateSystem::typeName
+                    coordinateSystem::typeName_()
                )
            );
--- a/applications/solvers/heatTransfer/chtMultiRegionFoam/solid/setRegionSolidFields.H
+++ b/applications/solvers/heatTransfer/chtMultiRegionFoam/solid/setRegionSolidFields.H
@ -1,3 +1,4 @@
 fvMesh& mesh = solidRegions[i];
 solidThermo& thermo = thermos[i];
 tmp<volScalarField> trho = thermo.rho();
--- a/applications/solvers/heatTransfer/solidFoam/createFields.H
+++ b/applications/solvers/heatTransfer/solidFoam/createFields.H
@ -15,7 +15,7 @@ if (!thermo.isotropic())
    (
        mesh,
        thermo,
-        coordinateSystem::typeName
+        coordinateSystem::typeName_()
    );
    tmp<volVectorField> tkappaByCp = thermo.Kappa()/thermo.Cp();
--- a/applications/solvers/heatTransfer/thermoFoam/createFields.H
+++ b/applications/solvers/heatTransfer/thermoFoam/createFields.H
@ -44,7 +44,7 @@ IOobject turbulencePropertiesHeader
    mesh,
    IOobject::MUST_READ_IF_MODIFIED,
    IOobject::NO_WRITE,
-    IOobject::NO_REGISTER
+    false
 );
 if (turbulencePropertiesHeader.typeHeaderOk<IOdictionary>(false))
--- a/applications/solvers/incompressible/adjointShapeOptimizationFoam/adjointOutletPressure/adjointOutletPressureFvPatchScalarField.C
+++ b/applications/solvers/incompressible/adjointShapeOptimizationFoam/adjointOutletPressure/adjointOutletPressureFvPatchScalarField.C
@ -89,10 +89,17 @@ void Foam::adjointOutletPressureFvPatchScalarField::updateCoeffs()
        return;
    }
-    const auto& phip = patch().lookupPatchField<surfaceScalarField>("phi");
+    const fvsPatchField<scalar>& phip =
-    const auto& phiap = patch().lookupPatchField<surfaceScalarField>("phia");
+        patch().lookupPatchField<surfaceScalarField, scalar>("phi");
-    const auto& Up = patch().lookupPatchField<volVectorField>("U");
+
-    const auto& Uap = patch().lookupPatchField<volVectorField>("Ua");
+    const fvsPatchField<scalar>& phiap =
        patch().lookupPatchField<surfaceScalarField, scalar>("phia");
    const fvPatchField<vector>& Up =
        patch().lookupPatchField<volVectorField, vector>("U");
    const fvPatchField<vector>& Uap =
        patch().lookupPatchField<volVectorField, vector>("Ua");
    operator==((phiap/patch().magSf() - 1.0)*phip/patch().magSf() + (Up & Uap));
@ -102,8 +109,8 @@ void Foam::adjointOutletPressureFvPatchScalarField::updateCoeffs()
 void Foam::adjointOutletPressureFvPatchScalarField::write(Ostream& os) const
 {
-    fvPatchField<scalar>::write(os);
+    fvPatchScalarField::write(os);
-    fvPatchField<scalar>::writeValueEntry(os);
+    writeEntry("value", os);
 }
--- a/applications/solvers/incompressible/adjointShapeOptimizationFoam/adjointOutletVelocity/adjointOutletVelocityFvPatchVectorField.C
+++ b/applications/solvers/incompressible/adjointShapeOptimizationFoam/adjointOutletVelocity/adjointOutletVelocityFvPatchVectorField.C
@ -90,8 +90,11 @@ void Foam::adjointOutletVelocityFvPatchVectorField::updateCoeffs()
        return;
    }
-    const auto& phiap = patch().lookupPatchField<surfaceScalarField>("phia");
+    const fvsPatchField<scalar>& phiap =
-    const auto& Up = patch().lookupPatchField<volVectorField>("U");
+        patch().lookupPatchField<surfaceScalarField, scalar>("phia");
    const fvPatchField<vector>& Up =
        patch().lookupPatchField<volVectorField, vector>("U");
    scalarField Un(mag(patch().nf() & Up));
    vectorField UtHat((Up - patch().nf()*Un)/(Un + SMALL));
@ -107,8 +110,8 @@ void Foam::adjointOutletVelocityFvPatchVectorField::updateCoeffs()
 void Foam::adjointOutletVelocityFvPatchVectorField::write(Ostream& os) const
 {
-    fvPatchField<vector>::write(os);
+    fvPatchVectorField::write(os);
-    fvPatchField<vector>::writeValueEntry(os);
+    writeEntry("value", os);
 }
--- a/applications/solvers/incompressible/pimpleFoam/Make/options
+++ b/applications/solvers/incompressible/pimpleFoam/Make/options
@ -8,7 +8,7 @@ EXE_INC = \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/dynamicMesh/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
-    -I$(LIB_SRC)/regionFaModels/lnInclude
+    -I$(LIB_SRC)/regionFaModels\lnInclude
 EXE_LIBS = \
    -lfiniteVolume \
@ -22,5 +22,4 @@ EXE_LIBS = \
    -ldynamicFvMesh \
    -ltopoChangerFvMesh \
    -latmosphericModels \
-    -lregionFaModels \
+    -lregionFaModels
    -lfiniteArea
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/CourantNo.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/CourantNo.H
@ -6,7 +6,7 @@
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
    Copyright (C) 2011 OpenFOAM Foundation
-    Copyright (C) 2016-2022 OpenCFD Ltd.
+    Copyright (C) 2016 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -37,10 +37,7 @@ scalar meanCoNum = 0.0;
 if (mesh.nInternalFaces())
 {
-    surfaceScalarField phiMask
+    surfaceScalarField phiMask(localMin<scalar>(mesh).interpolate(cellMask));
    (
        localMin<scalar>(mesh).interpolate(cellMask + interpolatedCells)
    );
    scalarField sumPhi(fvc::surfaceSum(mag(phiMask*phi))().internalField());
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/UEqn.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/UEqn.H
@ -1,4 +1,5 @@
 // Solve the Momentum equation
 MRF.correctBoundaryVelocity(U);
 tmp<fvVectorMatrix> tUEqn
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/correctPhi.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/correctPhi.H
@ -94,7 +94,7 @@ if (mesh.changing())
            {
                if (refCells[zoneId] != -1)
                {
-                    validCells.push_back(refCells[zoneId]);
+                    validCells.append(refCells[zoneId]);
                }
            }
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/createControls.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/createControls.H
@ -0,0 +1,26 @@
 #include "createTimeControls.H"
 bool correctPhi
 (
    pimple.dict().getOrDefault("correctPhi", false)
 );
 bool checkMeshCourantNo
 (
    pimple.dict().getOrDefault("checkMeshCourantNo", false)
 );
 bool massFluxInterpolation
 (
    pimple.dict().getOrDefault("massFluxInterpolation", false)
 );
 bool adjustFringe
 (
    pimple.dict().getOrDefault("oversetAdjustPhi", false)
 );
 bool ddtCorr
 (
    pimple.dict().getOrDefault("ddtCorr", true)
 );
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/interpolatedFaces.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/interpolatedFaces.H
@ -0,0 +1,273 @@
 // Interpolation used
 interpolationCellPoint<vector> UInterpolator(HbyA);
 // Determine faces on outside of interpolated cells
 bitSet isOwnerInterpolatedFace(mesh.nInternalFaces());
 bitSet isNeiInterpolatedFace(mesh.nInternalFaces());
 // Determine donor cells
 labelListList donorCell(mesh.nInternalFaces());
 scalarListList weightCellCells(mesh.nInternalFaces());
 // Interpolated HbyA faces
 vectorField UIntFaces(mesh.nInternalFaces(), Zero);
 // Determine receptor neighbour cells
 labelList receptorNeigCell(mesh.nInternalFaces(), -1);
 {
    const cellCellStencilObject& overlap = Stencil::New(mesh);
    const labelList& cellTypes = overlap.cellTypes();
    const labelIOList& zoneID = overlap.zoneID();
    label nZones = gMax(zoneID)+1;
    PtrList<fvMeshSubset> meshParts(nZones);
    labelList nCellsPerZone(nZones, Zero);
    // A mesh subset for each zone
    forAll(meshParts, zonei)
    {
        meshParts.set
        (
            zonei,
            // Select cells where the zoneID == zonei
            new fvMeshSubset(mesh, zonei, zoneID)
        );
    }
    for (label faceI = 0; faceI < mesh.nInternalFaces(); faceI++)
    {
        label ownType = cellTypes[mesh.faceOwner()[faceI]];
        label neiType = cellTypes[mesh.faceNeighbour()[faceI]];
        if
        (
            ownType == cellCellStencil::INTERPOLATED
            && neiType == cellCellStencil::CALCULATED
        )
        {
            isOwnerInterpolatedFace.set(faceI);
            const vector& fc = mesh.faceCentres()[faceI];
            for (label zoneI = 0; zoneI < nZones; zoneI++)
            {
                if (zoneI != zoneID[mesh.faceOwner()[faceI]])
                {
                    const fvMesh& partMesh = meshParts[zoneI].subMesh();
                    const labelList& cellMap = meshParts[zoneI].cellMap();
                    label cellI = partMesh.findCell(fc);
                    if (cellI != -1)
                    {
                         // Determine weights
                        labelList stencil(partMesh.cellCells()[cellI]);
                        stencil.append(cellI);
                        label st = stencil.size();
                        donorCell[faceI].setSize(st);
                        weightCellCells[faceI].setSize(st);
                        scalarField weights(st);
                        forAll(stencil, i)
                        {
                            scalar d = mag
                            (
                                partMesh.cellCentres()[stencil[i]]
                              - fc
                            );
                            weights[i] = 1.0/d;
                            donorCell[faceI][i] = cellMap[stencil[i]];
                        }
                        weights /= sum(weights);
                        weightCellCells[faceI] = weights;
                        forAll(stencil, i)
                        {
                            UIntFaces[faceI] +=
                                weightCellCells[faceI][i]
                               *UInterpolator.interpolate
                                (
                                    fc,
                                    donorCell[faceI][i]
                                );
                        }
                        break;
                    }
                }
            }
            receptorNeigCell[faceI] = mesh.faceNeighbour()[faceI];
        }
        else if
        (
            ownType == cellCellStencil::CALCULATED
            && neiType == cellCellStencil::INTERPOLATED
        )
        {
            isNeiInterpolatedFace.set(faceI);
            const vector& fc = mesh.faceCentres()[faceI];
            for (label zoneI = 0; zoneI < nZones; zoneI++)
            {
                if (zoneI != zoneID[mesh.faceNeighbour()[faceI]])
                {
                    const fvMesh& partMesh = meshParts[zoneI].subMesh();
                    const labelList& cellMap = meshParts[zoneI].cellMap();
                    label cellI = partMesh.findCell(fc);
                    if (cellI != -1)
                    {
                        // Determine weights
                        labelList stencil(partMesh.cellCells()[cellI]);
                        stencil.append(cellI);
                        label st = stencil.size();
                        donorCell[faceI].setSize(st);
                        weightCellCells[faceI].setSize(st);
                        scalarField weights(st);
                        forAll(stencil, i)
                        {
                            scalar d = mag
                            (
                                partMesh.cellCentres()[stencil[i]]
                              - fc
                            );
                            weights[i] = 1.0/d;
                            donorCell[faceI][i] = cellMap[stencil[i]];
                        }
                        weights /= sum(weights);
                        weightCellCells[faceI] = weights;
                        forAll(stencil, i)
                        {
                            UIntFaces[faceI] +=
                                weightCellCells[faceI][i]
                               *UInterpolator.interpolate
                                (
                                    fc,
                                    donorCell[faceI][i]
                                );
                        }
                        break;
                    }
                }
            }
            receptorNeigCell[faceI] = mesh.faceOwner()[faceI];
        }
    }
 }
 // contravariant U
 vectorField U1Contrav(mesh.nInternalFaces(), Zero);
 surfaceVectorField faceNormals(mesh.Sf()/mesh.magSf());
 forAll(isNeiInterpolatedFace, faceI)
 {
    label cellId = -1;
    if (isNeiInterpolatedFace.test(faceI))
    {
        cellId = mesh.faceNeighbour()[faceI];
    }
    else if (isOwnerInterpolatedFace.test(faceI))
    {
        cellId = mesh.faceOwner()[faceI];
    }
    if (cellId != -1)
    {
        const vector& n = faceNormals[faceI];
        vector n1(Zero);
        // 2-D cases
        if (mesh.nSolutionD() == 2)
        {
            for (direction cmpt=0; cmpt<vector::nComponents; cmpt++)
            {
                if (mesh.geometricD()[cmpt] == -1)
                {
                    switch (cmpt)
                    {
                        case vector::X:
                        {
                            n1 = vector(0, n.z(), -n.y());
                            break;
                        }
                        case vector::Y:
                        {
                            n1 = vector(n.z(), 0, -n.x());
                            break;
                        }
                        case vector::Z:
                        {
                            n1 = vector(n.y(), -n.x(), 0);
                            break;
                        }
                    }
                }
            }
        }
        else if (mesh.nSolutionD() == 3)
        {
            //Determine which is the primary direction
            if (mag(n.x()) > mag(n.y()) && mag(n.x()) > mag(n.z()))
            {
                n1 = vector(n.y(), -n.x(), 0);
            }
            else if (mag(n.y()) > mag(n.z()))
            {
                n1 = vector(0, n.z(), -n.y());
            }
            else
            {
                n1 = vector(-n.z(), 0, n.x());
            }
        }
        n1.normalise();
        const vector n2 = normalised(n ^ n1);
        tensor rot =
            tensor
            (
               n.x() ,n.y(), n.z(),
               n1.x() ,n1.y(), n1.z(),
               n2.x() ,n2.y(), n2.z()
            );
 //         tensor rot =
 //             tensor
 //             (
 //                n  & x ,n  & y, n  & z,
 //                n1 & x ,n1 & y, n1 & z,
 //                n2 & x ,n2 & y, n2 & z
 //             );
        U1Contrav[faceI].x() =
           2*transform(rot, UIntFaces[faceI]).x()
           - transform(rot, HbyA[receptorNeigCell[faceI]]).x();
        U1Contrav[faceI].y() = transform(rot, HbyA[cellId]).y();
        U1Contrav[faceI].z() = transform(rot, HbyA[cellId]).z();
        HbyA[cellId] = transform(inv(rot), U1Contrav[faceI]);
    }
 }
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/overPimpleDyMFoam.C
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/overPimpleDyMFoam.C
@ -6,7 +6,7 @@
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
    Copyright (C) 2011-2016 OpenFOAM Foundation
-    Copyright (C) 2016-2022 OpenCFD Ltd.
+    Copyright (C) 2016-2018 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
@ -46,9 +46,12 @@ Description
 #include "fvOptions.H"
 #include "cellCellStencilObject.H"
 #include "zeroGradientFvPatchFields.H"
 #include "localMin.H"
 #include "interpolationCellPoint.H"
 #include "transform.H"
 #include "fvMeshSubset.H"
 #include "oversetAdjustPhi.H"
 #include "oversetPatchPhiErr.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -65,9 +68,10 @@ int main(int argc, char *argv[])
    #include "setRootCaseLists.H"
    #include "createTime.H"
    #include "createDynamicFvMesh.H"
    #include "createDyMControls.H"
    #include "initContinuityErrs.H"
    pimpleControl pimple(mesh);
    #include "createFields.H"
    #include "createUf.H"
    #include "createMRF.H"
@ -84,9 +88,7 @@ int main(int argc, char *argv[])
    while (runTime.run())
    {
-        #include "readDyMControls.H"
+        #include "readControls.H"
        #include "readOversetDyMControls.H"
        #include "CourantNo.H"
        #include "setDeltaT.H"
@ -95,20 +97,45 @@ int main(int argc, char *argv[])
        Info<< "Time = " << runTime.timeName() << nl << endl;
-        mesh.update();
+        bool changed = mesh.update();
-        if (mesh.changing())
+        if (changed)
        {
            #include "setCellMask.H"
            #include "setInterpolatedCells.H"
            #include "correctPhiFaceMask.H"
-            fvc::makeRelative(phi, U);
+            surfaceScalarField faceMaskOld
            (
                localMin<scalar>(mesh).interpolate(cellMask.oldTime())
            );
-            if (checkMeshCourantNo)
+            // Zero Uf on old faceMask (H-I)
-            {
+            Uf *= faceMaskOld;
-                #include "meshCourantNo.H"
+            // Update Uf and phi on new C-I faces
-            }
+            Uf += (1-faceMaskOld)*fvc::interpolate(U);
            phi = mesh.Sf() & Uf;
            // Zero phi on current H-I
            surfaceScalarField faceMask
            (
                localMin<scalar>(mesh).interpolate(cellMask)
            );
            phi *= faceMask;
        }
        if (mesh.changing() && correctPhi)
        {
            // Calculate absolute flux from the mapped surface velocity
            #include "correctPhi.H"
        }
        // Make the flux relative to the mesh motion
        fvc::makeRelative(phi, U);
        if (mesh.changing() && checkMeshCourantNo)
        {
            #include "meshCourantNo.H"
        }
        // --- Pressure-velocity PIMPLE corrector loop
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/pEqn.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/pEqn.H
@ -1,11 +1,36 @@
 // Option 1: interpolate rAU, do not block out rAU on blocked cells
 volScalarField rAU("rAU", 1.0/UEqn.A());
 mesh.interpolate(rAU);
 // Option 2: do not interpolate rAU but block out rAU
 //surfaceScalarField rAUf("rAUf", fvc::interpolate(blockedCells*rAU));
 // Option 3: do not interpolate rAU but zero out rAUf on faces on holes
 // But what about:
 //
 //   H
 // H I C C C C
 //   H
 //
 surfaceScalarField rAUf("rAUf", fvc::interpolate(rAU));
 volVectorField H("H", UEqn.H());
 volVectorField HbyA("HbyA", U);
 HbyA = constrainHbyA(rAU*H, U, p);
 if (massFluxInterpolation)
 {
    #include "interpolatedFaces.H"
 }
 if (runTime.outputTime())
 {
    H.write();
    rAU.write();
    HbyA.write();
 }
 if (pimple.nCorrPISO() <= 1)
 {
    tUEqn.clear();
@ -13,16 +38,33 @@ if (pimple.nCorrPISO() <= 1)
 phiHbyA = fvc::flux(HbyA);
 if (ddtCorr)
 {
    surfaceScalarField faceMaskOld
    (
        localMin<scalar>(mesh).interpolate(cellMask.oldTime())
    );
    phiHbyA += rAUf*faceMaskOld*fvc::ddtCorr(U, Uf);
 }
 MRF.makeRelative(phiHbyA);
 // WIP
 if (p.needReference())
 {
    fvc::makeRelative(phiHbyA, U);
    adjustPhi(phiHbyA, U, p);
    fvc::makeAbsolute(phiHbyA, U);
 }
 if (adjustFringe)
 {
    fvc::makeRelative(phiHbyA, U);
-    oversetAdjustPhi(phiHbyA, U, zoneIdMass);
+    oversetAdjustPhi(phiHbyA, U);
    fvc::makeAbsolute(phiHbyA, U);
 }
 while (pimple.correctNonOrthogonal())
 {
    fvScalarMatrix pEqn
@ -37,26 +79,27 @@ while (pimple.correctNonOrthogonal())
    if (pimple.finalNonOrthogonalIter())
    {
        phi = phiHbyA - pEqn.flux();
-        pEqn.relax();
+        // option 2:
-        U =
+        // rAUf*fvc::snGrad(p)*mesh.magSf();
            cellMask*
            (
                HbyA
              - rAU*fvc::reconstruct((pEqn.flux())/rAUf)
            );
        U.correctBoundaryConditions();
        fvOptions.correct(U);
    }
    if (oversetPatchErrOutput)
    {
        oversetPatchPhiErr(pEqn, phiHbyA);
    }
 }
-// Excludes error in interpolated/hole cells
+
 #include "continuityErrs.H"
 // Explicitly relax pressure for momentum corrector
 p.relax();
 volVectorField gradP(fvc::grad(p));
 // Option 2: zero out velocity on blocked out cells
 //U = HbyA - rAU*cellMask*gradP;
 // Option 3: zero out velocity on blocked out cells
 // This is needed for the scalar Eq (k,epsilon, etc)
 // which can use U as source term
 U = cellMask*(HbyA - rAU*gradP);
 U.correctBoundaryConditions();
 fvOptions.correct(U);
 {
    Uf = fvc::interpolate(U);
@ -66,4 +109,9 @@ while (pimple.correctNonOrthogonal())
 // Make the fluxes relative to the mesh motion
 fvc::makeRelative(phi, U);
 surfaceScalarField faceMask
 (
    localMin<scalar>(mesh).interpolate(cellMask)
 );
 phi *= faceMask;
--- a/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/readControls.H
+++ b/applications/solvers/incompressible/pimpleFoam/overPimpleDyMFoam/readControls.H
@ -0,0 +1,10 @@
 #include "readTimeControls.H"
 correctPhi = pimple.dict().getOrDefault("correctPhi", false);
 checkMeshCourantNo = pimple.dict().getOrDefault("checkMeshCourantNo", false);
 massFluxInterpolation =
    pimple.dict().getOrDefault("massFluxInterpolation", false);
 ddtCorr = pimple.dict().getOrDefault("ddtCorr", true);
--- a/applications/solvers/incompressible/simpleFoam/overSimpleFoam/createOversetFields.H
+++ b/applications/solvers/incompressible/simpleFoam/overSimpleFoam/createOversetFields.H
@ -24,3 +24,7 @@ bool adjustFringe
 (
    simple.dict().getOrDefault("oversetAdjustPhi", false)
 );
 bool massFluxInterpolation
 (
    simple.dict().getOrDefault("massFluxInterpolation", false)
 );
--- a/applications/solvers/incompressible/simpleFoam/overSimpleFoam/pEqn.H
+++ b/applications/solvers/incompressible/simpleFoam/overSimpleFoam/pEqn.H
@ -1,10 +1,18 @@
 {
    surfaceScalarField faceMask(localMin<scalar>(mesh).interpolate(cellMask));
    volScalarField rAU(1.0/UEqn.A());
    surfaceScalarField rAUf("rAUf", faceMask*fvc::interpolate(rAU));
    volVectorField HbyA("HbyA", U);
    HbyA = constrainHbyA(cellMask*rAU*UEqn.H(), U, p);
    //mesh.interpolate(HbyA);
    if (massFluxInterpolation)
    {
        #include "interpolatedFaces.H"
    }
    tUEqn.clear();
    surfaceScalarField phiHbyA("phiHbyA", fvc::flux(HbyA));
--- a/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/DPMDyMFoam.C
+++ b/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/DPMDyMFoam.C
@ -42,11 +42,11 @@ Description
 #include "CorrectPhi.H"
 #ifdef MPPIC
-    #include "basicKinematicCloud.H"
+    #include "kinematicCloud.H"
-    #define basicKinematicTypeCloud basicKinematicCloud
+    #define kinematicTypeCloud kinematicCloud
 #else
-    #include "basicKinematicCollidingCloud.H"
+    #include "kinematicCollidingCloud.H"
-    #define basicKinematicTypeCloud basicKinematicCollidingCloud
+    #define kinematicTypeCloud kinematicCollidingCloud
 #endif
 int main(int argc, char *argv[])
@ -88,7 +88,7 @@ int main(int argc, char *argv[])
        Info<< "Time = " << runTime.timeName() << nl << endl;
        // Store the particle positions
-        kinematicCloud.storeGlobalPositions();
+        kCloud.storeGlobalPositions();
        mesh.update();
@ -111,15 +111,15 @@ int main(int argc, char *argv[])
        continuousPhaseTransport.correct();
        muc = rhoc*continuousPhaseTransport.nu();
-        kinematicCloud.evolve();
+        kCloud.evolve();
        // Update continuous phase volume fraction field
-        alphac = max(1.0 - kinematicCloud.theta(), alphacMin);
+        alphac = max(1.0 - kCloud.theta(), alphacMin);
        alphac.correctBoundaryConditions();
        alphacf = fvc::interpolate(alphac);
        alphaPhic = alphacf*phic;
-        fvVectorMatrix cloudSU(kinematicCloud.SU(Uc));
+        fvVectorMatrix cloudSU(kCloud.SU(Uc));
        volVectorField cloudVolSUSu
        (
            IOobject
--- a/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/MPPICDyMFoam/Make/options
+++ b/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/MPPICDyMFoam/Make/options
@ -12,6 +12,8 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/transportModels \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
--- a/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/Make/options
+++ b/applications/solvers/lagrangian/DPMFoam/DPMDyMFoam/Make/options
@ -11,8 +11,11 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/transportModels \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/phaseIncompressible/lnInclude \
--- a/applications/solvers/lagrangian/DPMFoam/DPMFoam.C
+++ b/applications/solvers/lagrangian/DPMFoam/DPMFoam.C
@ -43,11 +43,11 @@ Description
 #include "pimpleControl.H"
 #ifdef MPPIC
-    #include "basicKinematicCloud.H"
+    #include "kinematicCloud.H"
-    #define basicKinematicTypeCloud basicKinematicCloud
+    #define kinematicTypeCloud kinematicCloud
 #else
-    #include "basicKinematicCollidingCloud.H"
+    #include "kinematicCollidingCloud.H"
-    #define basicKinematicTypeCloud basicKinematicCollidingCloud
+    #define kinematicTypeCloud kinematicCollidingCloud
 #endif
 int main(int argc, char *argv[])
@ -91,16 +91,16 @@ int main(int argc, char *argv[])
        continuousPhaseTransport.correct();
        muc = rhoc*continuousPhaseTransport.nu();
-        Info<< "Evolving " << kinematicCloud.name() << endl;
+        Info<< "Evolving " << kCloud.name() << endl;
-        kinematicCloud.evolve();
+        kCloud.evolve();
        // Update continuous phase volume fraction field
-        alphac = max(1.0 - kinematicCloud.theta(), alphacMin);
+        alphac = max(1.0 - kCloud.theta(), alphacMin);
        alphac.correctBoundaryConditions();
        alphacf = fvc::interpolate(alphac);
        alphaPhic = alphacf*phic;
-        fvVectorMatrix cloudSU(kinematicCloud.SU(Uc));
+        fvVectorMatrix cloudSU(kCloud.SU(Uc));
        volVectorField cloudVolSUSu
        (
            IOobject
--- a/applications/solvers/lagrangian/DPMFoam/MPPICFoam/Make/options
+++ b/applications/solvers/lagrangian/DPMFoam/MPPICFoam/Make/options
@ -10,6 +10,8 @@ EXE_INC = \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/transportModels \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
--- a/applications/solvers/lagrangian/DPMFoam/Make/options
+++ b/applications/solvers/lagrangian/DPMFoam/Make/options
@ -10,8 +10,11 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/transportModels \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/regionModels/regionModel/lnInclude \
--- a/applications/solvers/lagrangian/DPMFoam/createFields.H
+++ b/applications/solvers/lagrangian/DPMFoam/createFields.H
@ -125,13 +125,13 @@ const word kinematicCloudName
 );
 Info<< "Constructing kinematicCloud " << kinematicCloudName << endl;
-basicKinematicTypeCloud kinematicCloud
+kinematicTypeCloud kCloud
 (
    kinematicCloudName,
    g,
    rhoc,
    Uc,
-    muc,
+    muc
    g
 );
 // Particle fraction upper limit
@ -139,13 +139,13 @@ scalar alphacMin
 (
    1.0
  - (
-        kinematicCloud.particleProperties().subDict("constantProperties")
+        kCloud.particleProperties().subDict("constantProperties")
       .get<scalar>("alphaMax")
    )
 );
 // Update alphac from the particle locations
-alphac = max(1.0 - kinematicCloud.theta(), alphacMin);
+alphac = max(1.0 - kCloud.theta(), alphacMin);
 alphac.correctBoundaryConditions();
 surfaceScalarField alphacf("alphacf", fvc::interpolate(alphac));
--- a/applications/solvers/lagrangian/coalChemistryFoam/Make/options
+++ b/applications/solvers/lagrangian/coalChemistryFoam/Make/options
@ -1,12 +1,11 @@
 EXE_INC = \
    -I$(LIB_SRC)/finiteVolume/lnInclude \
    -I$(LIB_SRC)/finiteArea/lnInclude \
-    -I$(LIB_SRC)/meshTools/lnInclude \
+    -I${LIB_SRC}/meshTools/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/lagrangian/basic/lnInclude \
    -I$(LIB_SRC)/lagrangian/intermediate/lnInclude \
    -I$(LIB_SRC)/lagrangian/coalCombustion/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/specie/lnInclude \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
@ -35,7 +34,6 @@ EXE_LIBS = \
    -llagrangian \
    -llagrangianIntermediate \
    -llagrangianTurbulence \
    -lcoalCombustion\
    -lspecie \
    -lcompressibleTransportModels \
    -lfluidThermophysicalModels \
--- a/applications/solvers/lagrangian/coalChemistryFoam/YEqn.H
+++ b/applications/solvers/lagrangian/coalChemistryFoam/YEqn.H
@ -40,11 +40,11 @@ tmp<fv::convectionScheme<scalar>> mvConvection
            fvOptions.correct(Yi);
-            Yi.clamp_min(0);
+            Yi.max(0.0);
            Yt += Yi;
        }
    }
    Y[inertIndex] = scalar(1) - Yt;
-    Y[inertIndex].clamp_min(0);
+    Y[inertIndex].max(0.0);
 }
--- a/applications/solvers/lagrangian/coalChemistryFoam/coalChemistryFoam.C
+++ b/applications/solvers/lagrangian/coalChemistryFoam/coalChemistryFoam.C
@ -37,8 +37,8 @@ Description
 #include "fvCFD.H"
 #include "turbulentFluidThermoModel.H"
-#include "basicThermoCloud.H"
+#include "thermoCloud.H"
-#include "coalCloud.H"
+#include "reactingMultiphaseCloud.H"
 #include "psiReactionThermo.H"
 #include "CombustionModel.H"
 #include "fvOptions.H"
--- a/applications/solvers/lagrangian/coalChemistryFoam/createClouds.H
+++ b/applications/solvers/lagrangian/coalChemistryFoam/createClouds.H
@ -1,19 +1,19 @@
 Info<< "\nConstructing coal cloud" << endl;
-coalCloud coalParcels
+reactingMultiphaseCloud coalParcels
 (
    "coalCloud1",
    g,
    rho,
    U,
    g,
    slgThermo
 );
 Info<< "\nConstructing limestone cloud" << endl;
-basicThermoCloud limestoneParcels
+thermoCloud limestoneParcels
 (
    "limestoneCloud1",
    g,
    rho,
    U,
    g,
    slgThermo
 );
--- a/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/Make/options
+++ b/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/Make/options
@ -9,6 +9,8 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/transportModels \
--- a/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/createFields.H
+++ b/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/createFields.H
@ -63,13 +63,13 @@ const word kinematicCloudName
 );
 Info<< "Constructing kinematicCloud " << kinematicCloudName << endl;
-basicKinematicCollidingCloud kinematicCloud
+kinematicCollidingCloud kCloud
 (
    kinematicCloudName,
    g,
    rhoInf,
    U,
-    mu,
+    mu
    g
 );
 IOobject Hheader
--- a/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelDyMFoam/Make/options
+++ b/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelDyMFoam/Make/options
@ -10,6 +10,8 @@ EXE_INC = \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/transportModels \
--- a/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelDyMFoam/icoUncoupledKinematicParcelDyMFoam.C
+++ b/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelDyMFoam/icoUncoupledKinematicParcelDyMFoam.C
@ -41,7 +41,7 @@ Description
 #include "dynamicFvMesh.H"
 #include "singlePhaseTransportModel.H"
 #include "turbulentTransportModel.H"
-#include "basicKinematicCollidingCloud.H"
+#include "kinematicCollidingCloud.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -76,19 +76,19 @@ int main(int argc, char *argv[])
    {
        Info<< "Time = " << runTime.timeName() << nl << endl;
-        kinematicCloud.storeGlobalPositions();
+        kCloud.storeGlobalPositions();
        mesh.update();
        U.correctBoundaryConditions();
-        Info<< "Evolving " << kinematicCloud.name() << endl;
+        Info<< "Evolving " << kCloud.name() << endl;
        laminarTransport.correct();
        mu = laminarTransport.nu()*rhoInfValue;
-        kinematicCloud.evolve();
+        kCloud.evolve();
        runTime.write();
--- a/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelFoam.C
+++ b/applications/solvers/lagrangian/icoUncoupledKinematicParcelFoam/icoUncoupledKinematicParcelFoam.C
@ -40,7 +40,7 @@ Description
 #include "fvCFD.H"
 #include "singlePhaseTransportModel.H"
 #include "turbulentTransportModel.H"
-#include "basicKinematicCollidingCloud.H"
+#include "kinematicCollidingCloud.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -75,13 +75,13 @@ int main(int argc, char *argv[])
    {
        Info<< "Time = " << runTime.timeName() << nl << endl;
-        Info<< "Evolving " << kinematicCloud.name() << endl;
+        Info<< "Evolving " << kCloud.name() << endl;
        laminarTransport.correct();
        mu = laminarTransport.nu()*rhoInfValue;
-        kinematicCloud.evolve();
+        kCloud.evolve();
        runTime.write();
--- a/applications/solvers/lagrangian/kinematicParcelFoam/Make/options
+++ b/applications/solvers/lagrangian/kinematicParcelFoam/Make/options
@ -8,6 +8,12 @@ EXE_INC = \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/transportModels \
    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/specie/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/dynamicMesh/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
--- a/applications/solvers/lagrangian/kinematicParcelFoam/UEqn.H
+++ b/applications/solvers/lagrangian/kinematicParcelFoam/UEqn.H
@ -6,7 +6,7 @@
      + MRF.DDt(U)
      + turbulence->divDevReff(U)
     ==
-        parcels.SU(U, true)
+        scalar(1)/rhoInfValue*parcels.SU(U)
      + fvOptions(U)
    );
--- a/applications/solvers/lagrangian/kinematicParcelFoam/createClouds.H
+++ b/applications/solvers/lagrangian/kinematicParcelFoam/createClouds.H
@ -4,13 +4,12 @@ const word kinematicCloudName
 );
 Info<< "Constructing kinematicCloud " << kinematicCloudName << endl;
-
+kinematicCloud parcels
 basicKinematicCloud parcels
 (
    kinematicCloudName,
    g,
    rhoInf,
    U,
-    muc,
+    muc
    g
 );
--- a/applications/solvers/lagrangian/kinematicParcelFoam/kinematicParcelFoam.C
+++ b/applications/solvers/lagrangian/kinematicParcelFoam/kinematicParcelFoam.C
@ -40,7 +40,7 @@ Description
 #include "singlePhaseTransportModel.H"
 #include "turbulentTransportModel.H"
 #include "surfaceFilmModel.H"
-#include "basicKinematicCloud.H"
+#include "kinematicCloud.H"
 #include "fvOptions.H"
 #include "pimpleControl.H"
 #include "CorrectPhi.H"
@ -67,7 +67,6 @@ int main(int argc, char *argv[])
    #include "createDyMControls.H"
    #include "createFields.H"
    #include "createFieldRefs.H"
    #include "createRegionControls.H"
    #include "createUfIfPresent.H"
    turbulence->validate();
@ -95,7 +94,7 @@ int main(int argc, char *argv[])
        // Do any mesh changes
        mesh.update();
-        if (solvePrimaryRegion && mesh.changing())
+        if (pimple.solveFlow() && mesh.changing())
        {
            MRF.update();
@ -120,7 +119,7 @@ int main(int argc, char *argv[])
        parcels.evolve();
        surfaceFilm.evolve();
-        if (solvePrimaryRegion)
+        if (pimple.solveFlow())
        {
            // --- PIMPLE loop
            while (pimple.loop())
--- a/applications/solvers/lagrangian/parcelFoam/Make/files
+++ b/applications/solvers/lagrangian/parcelFoam/Make/files
@ -0,0 +1,3 @@
 parcelFoam.C
 EXE = $(FOAM_USER_APPBIN)/parcelFoam
--- a/applications/solvers/lagrangian/parcelFoam/Make/options
+++ b/applications/solvers/lagrangian/parcelFoam/Make/options
@ -1,49 +1,48 @@
 EXE_INC = \
    -I$(FOAM_SOLVERS)/lagrangian/reactingParcelFoam \
    -I$(LIB_SRC)/finiteVolume/lnInclude \
    -I$(LIB_SRC)/finiteArea/lnInclude \
    -I$(LIB_SRC)/meshTools/lnInclude \
-    -I$(LIB_SRC)/lagrangian/basic/lnInclude \
+    -I$(LIB_SRC)/sampling/lnInclude \
    -I$(LIB_SRC)/lagrangian/intermediate/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/specie/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/radiation/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/incompressible/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/transportModels \
-    -I$(LIB_SRC)/regionModels/regionModel/lnInclude \
+    -I$(LIB_SRC)/transportModels/incompressible/singlePhaseTransportModel \
    -I$(LIB_SRC)/regionModels/surfaceFilmModels/lnInclude \
    -I$(LIB_SRC)/dynamicMesh/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
    -I$(LIB_SRC)/regionModels/regionModel/lnInclude \
    -I$(LIB_SRC)/regionModels/surfaceFilmModels/lnInclude \
    -I$(LIB_SRC)/regionFaModels/lnInclude \
-    -I$(LIB_SRC)/finiteArea/lnInclude \
+    -I$(LIB_SRC)/faOptions/lnInclude \
-    -I$(LIB_SRC)/faOptions/lnInclude
+    -I$(LIB_SRC)/lagrangian/basic/lnInclude \
    -I$(LIB_SRC)/lagrangian/intermediate/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/SLGThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/basic/lnInclude \
    -I$(LIB_SRC)/transportModels/compressible/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/reactionThermo/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/specie/lnInclude \
    -I$(LIB_SRC)/thermophysicalModels/thermophysicalProperties/lnInclude
-LIB_LIBS = \
+
 EXE_LIBS = \
    -lfiniteVolume \
    -lfvOptions \
    -lmeshTools \
    -lsampling \
    -lturbulenceModels \
    -lincompressibleTurbulenceModels \
    -lincompressibleTransportModels \
    -ldynamicMesh \
    -ldynamicFvMesh \
    -ltopoChangerFvMesh \
    -latmosphericModels \
    -lregionModels \
    -lsurfaceFilmModels \
    -lsurfaceFilmDerivedFvPatchFields \
    -llagrangian \
    -llagrangianIntermediate \
    -llagrangianTurbulence \
    -ldistributionModels \
    -lspecie \
    -lcompressibleTransportModels \
    -lfluidThermophysicalModels \
    -lthermophysicalProperties \
    -lreactionThermophysicalModels \
    -lSLGThermo \
    -lradiationModels \
    -lturbulenceModels \
    -lincompressibleTurbulenceModels \
    -lcompressibleTurbulenceModels \
    -lincompressibleTransportModels \
    -lregionModels \
    -lsurfaceFilmModels \
    -ldynamicMesh \
    -ldynamicFvMesh \
    -lregionFaModels \
-    -lfiniteArea
+    -lfiniteArea \
    -lfaOptions
--- a/applications/solvers/lagrangian/parcelFoam/UEqn.H
+++ b/applications/solvers/lagrangian/parcelFoam/UEqn.H
@ -0,0 +1,22 @@
    MRF.correctBoundaryVelocity(U);
    fvVectorMatrix UEqn
    (
        fvm::ddt(U) + fvm::div(phi, U)
      + MRF.DDt(U)
      + turbulence->divDevReff(U)
     ==
        scalar(1)/rhoInfValue*parcels.SU(U)
      + fvOptions(U)
    );
    UEqn.relax();
    fvOptions.constrain(UEqn);
    if (pimple.momentumPredictor())
    {
        solve(UEqn == -fvc::grad(p));
        fvOptions.correct(U);
    }
--- a/applications/solvers/lagrangian/parcelFoam/createClouds.H
+++ b/applications/solvers/lagrangian/parcelFoam/createClouds.H
@ -0,0 +1,2 @@
 auto parcels = parcelCloudModelList(g, rhoInf, U, muc);
--- a/applications/solvers/lagrangian/parcelFoam/createFieldRefs.H
+++ b/applications/solvers/lagrangian/parcelFoam/createFieldRefs.H
@ -0,0 +1 @@
 regionModels::surfaceFilmModel& surfaceFilm = tsurfaceFilm();
--- a/applications/solvers/lagrangian/parcelFoam/createFields.H
+++ b/applications/solvers/lagrangian/parcelFoam/createFields.H
@ -0,0 +1,85 @@
 #include "readGravitationalAcceleration.H"
 Info<< "Reading field p\n" << endl;
 volScalarField p
 (
    IOobject
    (
        "p",
        runTime.timeName(),
        mesh,
        IOobject::MUST_READ,
        IOobject::AUTO_WRITE
    ),
    mesh
 );
 Info<< "\nReading field U\n" << endl;
 volVectorField U
 (
    IOobject
    (
        "U",
        runTime.timeName(),
        mesh,
        IOobject::MUST_READ,
        IOobject::AUTO_WRITE
    ),
    mesh
 );
 #include "createPhi.H"
 singlePhaseTransportModel laminarTransport(U, phi);
 dimensionedScalar rhoInfValue
 (
    "rhoInf",
    dimDensity,
    laminarTransport
 );
 volScalarField rhoInf
 (
    IOobject
    (
        "rho",
        runTime.timeName(),
        mesh,
        IOobject::NO_READ,
        IOobject::NO_WRITE
    ),
    mesh,
    rhoInfValue
 );
 volScalarField muc
 (
    IOobject
    (
        "muc",
        runTime.timeName(),
        mesh,
        IOobject::NO_READ,
        IOobject::NO_WRITE
    ),
    rhoInf*laminarTransport.nu()
 );
 Info<< "Creating turbulence model\n" << endl;
 autoPtr<incompressible::turbulenceModel> turbulence
 (
    incompressible::turbulenceModel::New(U, phi, laminarTransport)
 );
 label pRefCell = 0;
 scalar pRefValue = 0.0;
 setRefCell(p, pimple.dict(), pRefCell, pRefValue);
 mesh.setFluxRequired(p.name());
 #include "createMRF.H"
 #include "createClouds.H"
 #include "createSurfaceFilmModel.H"
 #include "createFvOptions.H"
--- a/applications/solvers/lagrangian/parcelFoam/pEqn.H
+++ b/applications/solvers/lagrangian/parcelFoam/pEqn.H
@ -0,0 +1,58 @@
 volScalarField rAU(1.0/UEqn.A());
 volVectorField HbyA(constrainHbyA(rAU*UEqn.H(), U, p));
 surfaceScalarField phiHbyA("phiHbyA", fvc::flux(HbyA));
 if (pimple.ddtCorr())
 {
    phiHbyA += MRF.zeroFilter(fvc::interpolate(rAU)*fvc::ddtCorr(U, phi, Uf));
 }
 MRF.makeRelative(phiHbyA);
 if (p.needReference())
 {
    fvc::makeRelative(phiHbyA, U);
    adjustPhi(phiHbyA, U, p);
    fvc::makeAbsolute(phiHbyA, U);
 }
 // Update the pressure BCs to ensure flux consistency
 constrainPressure(p, U, phiHbyA, rAU, MRF);
 // Non-orthogonal pressure corrector loop
 while (pimple.correctNonOrthogonal())
 {
    fvScalarMatrix pEqn
    (
        fvm::laplacian(rAU, p)
     ==
        fvc::div(phiHbyA)
    );
    pEqn.setReference(pRefCell, pRefValue);
    pEqn.solve(mesh.solver(p.select(pimple.finalInnerIter())));
    if (pimple.finalNonOrthogonalIter())
    {
        phi = phiHbyA - pEqn.flux();
    }
 }
 #include "continuityErrs.H"
 p.relax();
 U = HbyA - rAU*fvc::grad(p);
 U.correctBoundaryConditions();
 fvOptions.correct(U);
 // Correct rhoUf if the mesh is moving
 fvc::correctUf(Uf, U, phi);
 // Make the fluxes relative to the mesh motion
 fvc::makeRelative(phi, U);
--- a/applications/solvers/lagrangian/parcelFoam/parcelFoam.C
+++ b/applications/solvers/lagrangian/parcelFoam/parcelFoam.C
@ -0,0 +1,154 @@
 /*---------------------------------------------------------------------------*\
  =========                 |
  \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox
   \\    /   O peration     |
    \\  /    A nd           | www.openfoam.com
     \\/     M anipulation  |
 -------------------------------------------------------------------------------
    Copyright (C) 2021 OpenCFD Ltd.
 -------------------------------------------------------------------------------
 License
    This file is part of OpenFOAM.
    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.
    OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
    for more details.
    You should have received a copy of the GNU General Public License
    along with OpenFOAM.  If not, see <http://www.gnu.org/licenses/>.
 Application
    parcelFoam
 Group
    grpLagrangianSolvers
 Description
    Transient solver for incompressible, turbulent flow with kinematic,
    particle cloud, and surface film modelling.
 \*---------------------------------------------------------------------------*/
 #include "fvCFD.H"
 #include "dynamicFvMesh.H"
 #include "singlePhaseTransportModel.H"
 #include "turbulentTransportModel.H"
 #include "surfaceFilmModel.H"
 #include "parcelCloudModelList.H"
 #include "fvOptions.H"
 #include "pimpleControl.H"
 #include "CorrectPhi.H"
 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
 int main(int argc, char *argv[])
 {
    argList::addNote
    (
        "Transient solver for incompressible, turbulent flow"
        " with kinematic particle clouds"
        " and surface film modelling."
    );
    #define CREATE_MESH createMeshesPostProcess.H
    #include "postProcess.H"
    #include "addCheckCaseOptions.H"
    #include "setRootCaseLists.H"
    #include "createTime.H"
    #include "createDynamicFvMesh.H"
    #include "initContinuityErrs.H"
    #include "createDyMControls.H"
    #include "createFields.H"
    #include "createFieldRefs.H"
    #include "createUfIfPresent.H"
    turbulence->validate();
    #include "CourantNo.H"
    #include "setInitialDeltaT.H"
    // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
    Info<< "\nStarting time loop\n" << endl;
    while (runTime.run())
    {
        #include "readDyMControls.H"
        #include "CourantNo.H"
        #include "setMultiRegionDeltaT.H"
        ++runTime;
        Info<< "Time = " << runTime.timeName() << nl << endl;
        // Store the particle positions
        parcels.storeGlobalPositions();
        // Do any mesh changes
        mesh.update();
        if (pimple.solveFlow() && mesh.changing())
        {
            MRF.update();
            if (correctPhi)
            {
                // Calculate absolute flux
                // from the mapped surface velocity
                phi = mesh.Sf() & Uf();
                #include "../../incompressible/pimpleFoam/correctPhi.H"
                // Make the fluxes relative to the mesh-motion
                fvc::makeRelative(phi, U);
            }
            if (checkMeshCourantNo)
            {
                #include "meshCourantNo.H"
            }
        }
        parcels.evolve();
        surfaceFilm.evolve();
        if (pimple.solveFlow())
        {
            // --- PIMPLE loop
            while (pimple.loop())
            {
                #include "UEqn.H"
                // --- Pressure corrector loop
                while (pimple.correct())
                {
                    #include "pEqn.H"
                }
                if (pimple.turbCorr())
                {
                    laminarTransport.correct();
                    turbulence->correct();
                }
            }
        }
        runTime.write();
        runTime.printExecutionTime(Info);
    }
    Info<< "End\n" << endl;
    return 0;
 }
 // ************************************************************************* //
--- a/applications/solvers/lagrangian/reactingParcelFoam/Make/options
+++ b/applications/solvers/lagrangian/reactingParcelFoam/Make/options
@ -2,10 +2,10 @@ EXE_INC = \
    -I../reactingParcelFoam \
    -I$(LIB_SRC)/finiteVolume/lnInclude \
    -I$(LIB_SRC)/finiteArea/lnInclude \
-    -I$(LIB_SRC)/meshTools/lnInclude \
+    -I${LIB_SRC}/meshTools/lnInclude \
    -I$(LIB_SRC)/dynamicMesh/lnInclude \
    -I$(LIB_SRC)/dynamicFvMesh/lnInclude \
-    -I$(LIB_SRC)/sampling/lnInclude \
+    -I${LIB_SRC}/sampling/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/turbulenceModels/lnInclude \
    -I$(LIB_SRC)/TurbulenceModels/compressible/lnInclude \
    -I$(LIB_SRC)/lagrangian/distributionModels/lnInclude \
--- a/applications/solvers/lagrangian/reactingParcelFoam/YEqn.H
+++ b/applications/solvers/lagrangian/reactingParcelFoam/YEqn.H
@ -41,11 +41,11 @@ tmp<fv::convectionScheme<scalar>> mvConvection
            fvOptions.correct(Yi);
-            Yi.clamp_min(0);
+            Yi.max(0.0);
            Yt += Yi;
        }
    }
    Y[inertIndex] = scalar(1) - Yt;
-    Y[inertIndex].clamp_min(0);
+    Y[inertIndex].max(0.0);
 }
--- a/applications/solvers/lagrangian/reactingParcelFoam/createClouds.H
+++ b/applications/solvers/lagrangian/reactingParcelFoam/createClouds.H
@ -1,9 +1,9 @@
 Info<< "\nConstructing reacting cloud" << endl;
-basicReactingTypeCloud parcels
+reactingTypeCloud parcels
 (
    "reactingCloud1",
    g,
    rho,
    U,
    g,
    slgThermo
 );
--- a/applications/solvers/lagrangian/reactingParcelFoam/createMeshesPostProcess.H
+++ b/applications/solvers/lagrangian/reactingParcelFoam/createMeshesPostProcess.H
@ -9,7 +9,7 @@ IOobject io
    mesh,
    IOobject::READ_IF_PRESENT,
    IOobject::NO_WRITE,
-    IOobject::NO_REGISTER
+    false
 );
 if (io.typeHeaderOk<IOdictionary>())
@ -32,4 +32,4 @@ if (io.typeHeaderOk<IOdictionary>())
    );
 }
-// ************************************************************************* //
+
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Andrew Heather	3cc0f809dc	WIP: Updated lagrangian solvers followinf library changes	2022-09-12 21:16:09 +01:00
Andrew Heather	32dbc380ea	WIP: deprecated lagrangian coal combustion - models added to reactingMultiphase	2022-09-12 21:16:09 +01:00
Andrew Heather	2e5c590db6	ENH: Added new parcelFoam solver based on kinematicParcelFoam	2022-09-12 21:16:09 +01:00
Andrew Heather	5c924f6cf9	STYLE: lagrangian turbulence library - removed 'basic' prefix	2022-09-12 21:16:09 +01:00
Andrew Heather	536bb445fb	STYLE: lagrangian intermediate library - removed 'basic' prefix	2022-09-12 21:16:09 +01:00
Andrew Heather	1cac9ab826	WIP: Added new rhoParcelFoam solver based on reactingParcelFoam	2022-09-12 21:16:09 +01:00
Andrew Heather	ba8e26f4fd	WIP: migrated coalCloudList to parcelCloudModelList	2022-09-12 21:16:09 +01:00
Andrew Heather	3c863d3fa3	WIP: clouds - moved spray cloud and parcels to main intermediate library	2022-09-12 21:16:09 +01:00
Andrew Heather	d2e6ff64c9	WIP: clouds - updated dependent code	2022-08-31 10:20:35 +01:00
Andrew Heather	9e55fec128	WIP: clouds - refactoring	2022-08-31 10:20:08 +01:00
Andrew Heather	f36629cf40	WIP: Clouds - new run-time selection based on openfoam.org changes	2022-08-31 10:20:08 +01:00
Andrew Heather	371ce8a89e	WIP: clouds - added debug - based on openfoam.org changes	2022-08-31 10:20:08 +01:00
Andrew Heather	45e8754ec3	DUMMY	2022-08-31 10:20:04 +01:00
Andrew Heather	ba7034cc8f	WIP: Clouds - new run-time selection based on openfoam.org changes	2022-08-30 17:59:26 +01:00
Andrew Heather	6acaf99580	WIP: Removed base classes	2022-08-26 16:38:35 +01:00
		`@ -0,0 +1,3 @@`
							`parcelFoam.C`

							`EXE = $(FOAM_USER_APPBIN)/parcelFoam`
		`@ -0,0 +1,2 @@`
							`auto parcels = parcelCloudModelList(g, rhoInf, U, muc);`
		`@ -0,0 +1 @@`
							`regionModels::surfaceFilmModel& surfaceFilm = tsurfaceFilm();`