Foam::CompositionModel<CloudType>::CompositionModel ( const dictionary& dict, CloudType& owner, const word& type ) : dict_(dict), owner_(owner), coeffDict_(dict.subDict(type + "Coeffs")), mcCarrierThermo_(owner.mcCarrierThermo()), liquids_ ( liquidMixture::New ( owner.mesh().objectRegistry::lookupObject<dictionary> ( owner.carrierThermo().name() ) ) ), solids_ ( solidMixture::New ( owner.mesh().objectRegistry::lookupObject<dictionary> ( owner.carrierThermo().name() ) ) ), phaseProps_ ( coeffDict_.lookup("phases"), mcCarrierThermo_.species(), liquids_().components(), solids_().components() ) {}
Foam::LiquidEvaporation<CloudType>::LiquidEvaporation ( const dictionary& dict, CloudType& owner ) : PhaseChangeModel<CloudType>(dict, owner, typeName), liquids_ ( liquidMixture::New ( owner.mesh().objectRegistry::template lookupObject<dictionary> ( owner.carrierThermo().name() ) ) ), activeLiquids_(this->coeffDict().lookup("activeLiquids")), liqToCarrierMap_(activeLiquids_.size(), -1), liqToLiqMap_(activeLiquids_.size(), -1) { if (activeLiquids_.size() == 0) { WarningIn ( "Foam::LiquidEvaporation<CloudType>::LiquidEvaporation" "(" "const dictionary& dict, " "CloudType& owner" ")" ) << "Evaporation model selected, but no active liquids defined" << nl << endl; } // Determine mapping between liquid and carrier phase species forAll(activeLiquids_, i) { liqToCarrierMap_[i] = owner.composition().globalCarrierId(activeLiquids_[i]); }