Merge branch 'master' of /home/dm4/OpenFOAM/OpenFOAM-dev

8b0ee293 · andy · 5f654bb9 · 684a9e7a · 5f654bb9 · 8b0ee293
Commit 8b0ee293 authored 11 years ago by andy
--- a/qq
+++ b/qq
-OSspecific/POSIX/POSIX.C:pid_t Foam::pid()
-OSspecific/POSIX/POSIX.C:bool Foam::ping
-OSspecific/POSIX/POSIX.C:            "Foam::ping(const string&, ...)"
-OSspecific/POSIX/POSIX.C:            "Foam::ping(const string&, const label)"
-OSspecific/POSIX/POSIX.C:bool Foam::ping(const string& hostname, const label timeOut)
-OSspecific/POSIX/fileStat.H:    So e.g. Foam::ping first and hope nfs is running.
-OpenFOAM/global/constants/atomic/atomicConstants.C:                4.0*mathematical::pi
-OpenFOAM/global/constants/atomic/atomicConstants.C:                4.0*mathematical::pi
-OpenFOAM/global/constants/electromagnetic/electromagneticConstants.C:        4.0*mathematical::pi*1e-07
-OpenFOAM/global/constants/electromagnetic/electromagneticConstants.C:            1.0/(4.0*mathematical::pi)
-OpenFOAM/global/constants/physicoChemical/physicoChemicalConstants.C:            Foam::sqr(mathematical::pi)/60.0
-OpenFOAM/global/unitConversion/unitConversion.H:    return (deg*constant::mathematical::pi/180.0);
-OpenFOAM/global/unitConversion/unitConversion.H:    return (rad*180.0/constant::mathematical::pi);
-OpenFOAM/meshes/meshShapes/face/face.C:            angle = constant::mathematical::pi + edgeAngle;
-OpenFOAM/meshes/meshShapes/face/face.C:            angle = constant::mathematical::pi - edgeAngle;
-OpenFOAM/meshes/meshShapes/face/face.C:        scalar minDiff = constant::mathematical::pi;
-OpenFOAM/primitives/transform/transform.H:        return (3.0 + cos)*constant::mathematical::piByTwo;
-OpenFOAM/primitives/transform/transform.H:        return (1.0 - cos)*constant::mathematical::piByTwo;
-engine/engineTime/engineTime.C:Foam::scalar Foam::engineTime::pistonPosition(const scalar theta) const
-engine/engineTime/engineTime.C:Foam::dimensionedScalar Foam::engineTime::pistonPosition() const
-engine/engineTime/engineTime.C:Foam::dimensionedScalar Foam::engineTime::pistonDisplacement() const
-engine/engineTime/engineTime.C:Foam::dimensionedScalar Foam::engineTime::pistonSpeed() const
-engine/include/StCorr.H:                    Ak = sphereFraction*4.0*constant::mathematical::pi
-engine/include/StCorr.H:                           /(sphereFraction*4.0*constant::mathematical::pi),
-engine/include/StCorr.H:                    Ak = circleFraction*constant::mathematical::pi*thickness
-engine/include/StCorr.H:                              *constant::mathematical::pi
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.C:void Foam::pimpleControl::read()
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.C:bool Foam::pimpleControl::criteriaSatisfied()
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.C:Foam::pimpleControl::pimpleControl(fvMesh& mesh)
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.C:Foam::pimpleControl::~pimpleControl()
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.C:bool Foam::pimpleControl::loop()
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControl.H:    Foam::pimpleControl
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline Foam::label Foam::pimpleControl::nCorrPIMPLE() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline Foam::label Foam::pimpleControl::nCorrPISO() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline Foam::label Foam::pimpleControl::corrPISO() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline bool Foam::pimpleControl::correct()
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline bool Foam::pimpleControl::storeInitialResiduals() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline bool Foam::pimpleControl::finalIter() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline bool Foam::pimpleControl::finalInnerIter() const
-finiteVolume/cfdTools/general/solutionControl/pimpleControl/pimpleControlI.H:inline bool Foam::pimpleControl::turbCorr() const
-finiteVolume/fields/fvPatchFields/derived/cylindricalInletVelocity/cylindricalInletVelocityFvPatchVectorField.C:        (rpm*constant::mathematical::pi/30.0)*(hatAxis) ^ d
-finiteVolume/fields/fvPatchFields/derived/swirlFlowRateInletVelocity/swirlFlowRateInletVelocityFvPatchVectorField.C:            (rpm*constant::mathematical::pi/30.0)
-fvOptions/sources/derived/rotorDiskSource/rotorDiskSource.C:    const scalar diameter = Foam::sqrt(4.0*sumArea/mathematical::pi);
-fvOptions/sources/derived/rotorDiskSource/rotorDiskSource.C:                alphaGeom = mathematical::pi - alphaGeom;
-fvOptions/sources/derived/rotorDiskSource/trimModel/targetCoeff/targetCoeffTrim.C:    scalar coeff1 = alpha_*sqr(rotor_.omega())*mathematical::pi;
-lagrangian/coalCombustion/submodels/surfaceReactionModel/COxidationDiffusionLimitedRate/COxidationDiffusionLimitedRate.C:    scalar dmC = 4.0*mathematical::pi*d*D_*YO2*Tc*rhoc/(Sb_*(T + Tc))*dt;
-lagrangian/coalCombustion/submodels/surfaceReactionModel/COxidationHurtMitchell/COxidationHurtMitchell.C:    const scalar Ap = constant::mathematical::pi*sqr(d);
-lagrangian/coalCombustion/submodels/surfaceReactionModel/COxidationKineticDiffusionLimitedRate/COxidationKineticDiffusionLimitedRate.C:    const scalar Ap = constant::mathematical::pi*sqr(d);
-lagrangian/coalCombustion/submodels/surfaceReactionModel/COxidationMurphyShaddix/COxidationMurphyShaddix.C:    const scalar Ap = constant::mathematical::pi*sqr(d);
-lagrangian/distributionModels/normal/normal.C:    scalar k = 2.0/(constant::mathematical::pi*a_) +  0.5*log(1.0 - y*y);
-lagrangian/dsmc/parcels/Templates/DsmcParcel/DsmcParcelI.H:    return constant::mathematical::pi*d_*d_;
-lagrangian/intermediate/submodels/CloudFunctionObjects/ParticleCollector/ParticleCollector.C:            scalar theta = pCyl[1] + constant::mathematical::pi;
-lagrangian/intermediate/submodels/CloudFunctionObjects/ParticleErosion/ParticleErosion.C:        const scalar alpha = mathematical::pi/2.0 - acos(nw & Udir);
-lagrangian/intermediate/submodels/Kinematic/CollisionModel/PairCollision/PairModel/PairSpringSliderDashpot/PairSpringSliderDashpot.H:                mathematical::pi/4.0
-lagrangian/intermediate/submodels/Kinematic/CollisionModel/PairCollision/WallModel/WallLocalSpringSliderDashpot/WallLocalSpringSliderDashpot.C:           *mathematical::pi*(sqr(pREff) - sqr(r_PW_mag))
-lagrangian/intermediate/submodels/Kinematic/CollisionModel/PairCollision/WallModel/WallSpringSliderDashpot/WallSpringSliderDashpot.C:           *mathematical::pi*(sqr(pREff) - sqr(r_PW_mag))
-lagrangian/intermediate/submodels/Kinematic/InjectionModel/CellZoneInjection/CellZoneInjection.C:    this->volumeTotal_ = sum(pow3(diameters_))*constant::mathematical::pi/6.0;
-lagrangian/intermediate/submodels/Kinematic/InjectionModel/ConeNozzleInjection/ConeNozzleInjection.C:    const scalar deg2Rad = mathematical::pi/180.0;
-lagrangian/intermediate/submodels/Kinematic/InjectionModel/ConeNozzleInjection/ConeNozzleInjection.C:            scalar Ao = 0.25*mathematical::pi*outerDiameter_*outerDiameter_;
-lagrangian/intermediate/submodels/Kinematic/InjectionModel/ConeNozzleInjection/ConeNozzleInjection.C:            scalar Ai = 0.25*mathematical::pi*innerDiameter_*innerDiameter_;
-lagrangian/intermediate/submodels/Kinematic/SurfaceFilmModel/SurfaceFilmModel/SurfaceFilmModel.C:    scalar vol = mathematical::pi/6.0*pow3(diameterParcelPatch_[filmFaceI]);
-lagrangian/intermediate/submodels/Thermodynamic/ParticleForces/BrownianMotion/BrownianMotionForce.C:    scalar k = 2.0/(mathematical::pi*a) +  0.5*log(1.0 - y*y);
-lagrangian/intermediate/submodels/Thermodynamic/ParticleForces/BrownianMotion/BrownianMotionForce.C:        const scalar Dp = sigma*Tc*cc/(3*mathematical::pi*muc*dp);
-lagrangian/intermediate/submodels/Thermodynamic/ParticleForces/BrownianMotion/BrownianMotionForce.C:            216*muc*sigma*Tc/(sqr(mathematical::pi)*pow5(dp)*(rhoRatio)*cc);
-lagrangian/intermediate/submodels/Thermodynamic/ParticleForces/BrownianMotion/BrownianMotionForce.C:        f = eta*sqrt(mathematical::pi*s0/dt);
-lagrangian/molecularDynamics/molecule/molecule/moleculeI.H:inline const Foam::vector& Foam::molecule::pi() const
-lagrangian/molecularDynamics/molecule/molecule/moleculeI.H:inline Foam::vector& Foam::molecule::pi()
-lagrangian/molecularDynamics/potential/electrostaticPotential/electrostaticPotential.C:    prefactor(1.0/(4.0*constant::mathematical::pi*8.854187817e-12))
-lagrangian/molecularDynamics/potential/pairPotential/derived/coulomb/coulomb.C:    1.0/(4.0*constant::mathematical::pi*8.854187817e-12);
-lagrangian/molecularDynamics/potential/pairPotential/derived/dampedCoulomb/dampedCoulomb.C:    1.0/(4.0*constant::mathematical::pi*8.854187817e-12);
-lagrangian/molecularDynamics/potential/tetherPotential/derived/pitchForkRing/pitchForkRing.C:pitchForkRing::pitchForkRing
-lagrangian/molecularDynamics/potential/tetherPotential/derived/pitchForkRing/pitchForkRing.H:    Foam::tetherPotentials::pitchForkRing
-lagrangian/spray/submodels/AtomizationModel/BlobsSheetAtomization/BlobsSheetAtomization.C:            rho*sigma*d*cos(angle_*constant::mathematical::pi/360.0)
-lagrangian/spray/submodels/AtomizationModel/LISAAtomization/LISAAtomization.C:    scalar hSheet = volFlowRate/(constant::mathematical::pi*delta*Urel);
-lagrangian/spray/submodels/AtomizationModel/LISAAtomization/LISAAtomization.C:    scalar dD = cbrt(3.0*constant::mathematical::pi*sqr(dL)/kL);
-lagrangian/spray/submodels/AtomizationModel/LISAAtomization/LISASMDCalcMethod2.H:    // scalar factorGamma = 0.75*sqrt(mathematicalConstant::pi);   //nExp=2
-lagrangian/spray/submodels/BreakupModel/ReitzKHRT/ReitzKHRT.C:    scalar rhopi6 = rho*constant::mathematical::pi/6.0;
-lagrangian/spray/submodels/BreakupModel/ReitzKHRT/ReitzKHRT.C:            //scalar ms0 = rho*pow3(dc)*mathematicalConstant::pi/6.0;
-lagrangian/spray/submodels/BreakupModel/SHF/SHF.C:    scalar rhopi6 = rho*constant::mathematical::pi/6.0;
-lagrangian/spray/submodels/StochasticCollision/ORourkeCollision/ORourkeCollision.C:    scalar nu0 = 0.25*constant::mathematical::pi*sqr(sumD)*magUrel*dt/Vc;
-meshTools/coordinateSystems/coordinateRotation/EulerCoordinateRotation.C:        phi   *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/coordinateRotation/EulerCoordinateRotation.C:        theta *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/coordinateRotation/EulerCoordinateRotation.C:        psi   *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/coordinateRotation/STARCDCoordinateRotation.C:        x *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/coordinateRotation/STARCDCoordinateRotation.C:        y *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/coordinateRotation/STARCDCoordinateRotation.C:        z *= constant::mathematical::pi/180.0;
-meshTools/coordinateSystems/cylindricalCS.C:        local.y()*(inDegrees_ ? constant::mathematical::pi/180.0 : 1.0)
-meshTools/coordinateSystems/cylindricalCS.C:       *(inDegrees_ ? constant::mathematical::pi/180.0 : 1.0)
-meshTools/coordinateSystems/cylindricalCS.C:        )*(inDegrees_ ? 180.0/constant::mathematical::pi : 1.0),
-meshTools/coordinateSystems/cylindricalCS.C:        )*(inDegrees_ ? 180.0/constant::mathematical::pi : 1.0)
-postProcessing/functionObjects/field/regionSizeDistribution/regionSizeDistribution.C:                   *6/constant::mathematical::pi
-postProcessing/functionObjects/forces/pointPatchFields/derived/sixDoFRigidBodyMotion/sixDoFRigidBodyMotionI.H:inline const Foam::vector& Foam::sixDoFRigidBodyMotion::pi() const
-postProcessing/functionObjects/forces/pointPatchFields/derived/sixDoFRigidBodyMotion/sixDoFRigidBodyMotionI.H:inline Foam::vector& Foam::sixDoFRigidBodyMotion::pi()
-postProcessing/functionObjects/forces/pointPatchFields/derived/sixDoFRigidBodyMotion/sixDoFRigidBodyMotionStateI.H:inline const Foam::vector& Foam::sixDoFRigidBodyMotionState::pi() const
-postProcessing/functionObjects/forces/pointPatchFields/derived/sixDoFRigidBodyMotion/sixDoFRigidBodyMotionStateI.H:inline Foam::vector& Foam::sixDoFRigidBodyMotionState::pi()
-randomProcesses/fft/kShellIntegration.C:    y *= sqr(x)*4.0*constant::mathematical::pi;
-randomProcesses/fft/kShellIntegration.C:    scalar factor = pow((l0/(2.0*constant::mathematical::pi)),3.0);
-regionModels/surfaceFilmModels/submodels/kinematic/injectionModel/drippingInjection/drippingInjection.C:    const scalar pi = constant::mathematical::pi;
-sampling/sampledSet/circle/circleSet.C:    const scalar alpha = constant::mathematical::pi/180.0*dTheta_;
-thermophysicalModels/radiationModels/radiationModel/fvDOM/radiativeIntensityRay/radiativeIntensityRay.C:                1.0/constant::mathematical::pi*omega_
-thermophysicalModels/radiationModels/radiationModel/fvDOM/radiativeIntensityRay/radiativeIntensityRay.C:               1.0/constant::mathematical::pi*omega_
-transportModels/interfaceProperties/interfaceProperties.C:    Foam::constant::mathematical::pi/180.0;
--- a/src/thermophysicalModels/basic/basicThermo/basicThermo.H
+++ b/src/thermophysicalModels/basic/basicThermo/basicThermo.H
@@ -405,32 +405,35 @@ public:
            //- Thermal diffusivity for temperature of mixture [J/m/s/K]
            virtual tmp<volScalarField> kappa() const = 0;

-            //- Thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Thermal diffusivity for temperature
+            //  of mixture for patch [J/m/s/K]
            virtual tmp<scalarField> kappa
            (
                const label patchi
            ) const = 0;

-            //- Effective thermal diffusivity of mixture [J/m/s/K]
+            //- Effective thermal diffusivity for temperature
+            //  of mixture [J/m/s/K]
            virtual tmp<volScalarField> kappaEff
            (
                const volScalarField&
            ) const = 0;

-            //- Effective thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Effective thermal diffusivity for temperature
+            //  of mixture for patch [J/m/s/K]
            virtual tmp<scalarField> kappaEff
            (
                const scalarField& alphat,
                const label patchi
            ) const = 0;

-            //- Effective thermal diffusivity of mixture [J/m/s/K]
+            //- Effective thermal diffusivity of mixture [kg/m/s]
            virtual tmp<volScalarField> alphaEff
            (
                const volScalarField& alphat
            ) const = 0;

-            //- Effective thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Effective thermal diffusivity of mixture for patch [kg/m/s]
            virtual tmp<scalarField> alphaEff
            (
                const scalarField& alphat,

--- a/src/thermophysicalModels/basic/heThermo/heThermo.H
+++ b/src/thermophysicalModels/basic/heThermo/heThermo.H
@@ -259,30 +259,32 @@ public:
            //- Thermal diffusivity for temperature of mixture [J/m/s/K]
            virtual tmp<volScalarField> kappa() const;

-            //- Thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Thermal diffusivity for temperature
+            //  of mixture for patch [J/m/s/K]
            virtual tmp<scalarField> kappa
            (
                const label patchi
            ) const;

-            //- Effective thermal diffusivity of mixture [J/m/s/K]
+            //- Effective thermal diffusivity for temperature
+            //  of mixture [J/m/s/K]
            virtual tmp<volScalarField> kappaEff(const volScalarField&) const;

-            //- Effective thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Effective thermal diffusivity for temperature
+            //  of mixture for patch [J/m/s/K]
            virtual tmp<scalarField> kappaEff
            (
                const scalarField& alphat,
                const label patchi
            ) const;

-
-            //- Effective thermal diffusivity of mixture [J/m/s/K]
+            //- Effective thermal diffusivity of mixture [kg/m/s]
            virtual tmp<volScalarField> alphaEff
            (
                const volScalarField& alphat
            ) const;

-            //- Effective thermal diffusivity of mixture for patch [J/m/s/K]
+            //- Effective thermal diffusivity of mixture for patch [kg/m/s]
            virtual tmp<scalarField> alphaEff
            (
                const scalarField& alphat,