Foam::forceSuSp Foam::ParamagneticForce<CloudType>::calcNonCoupled
(
const typename CloudType::parcelType& p,
const typename CloudType::parcelType::trackingData& td,
const scalar dt,
const scalar mass,
const scalar Re,
const scalar muc
) const
{
forceSuSp value(Zero, 0.0);
const interpolation<vector>& HdotGradHInterp = *HdotGradHInterpPtr_;
value.Su()=
mass*3.0*constant::electromagnetic::mu0.value()/p.rho()
*magneticSusceptibility_/(magneticSusceptibility_ + 3)
*HdotGradHInterp.interpolate(p.coordinates(), p.currentTetIndices());
return value;
}
Foam::forceSuSp Foam::LiftForce<CloudType>::calcCoupled
(
const typename CloudType::parcelType& p,
const typename CloudType::parcelType::trackingData& td,
const scalar dt,
const scalar mass,
const scalar Re,
const scalar muc
) const
{
forceSuSp value(Zero, 0.0);
vector curlUc =
curlUcInterp().interpolate(p.coordinates(), p.currentTetIndices());
scalar Cl = this->Cl(p, td, curlUc, Re, muc);
value.Su() = mass/p.rho()*td.rhoc()*Cl*((td.Uc() - p.U())^curlUc);
return value;
}
