diff --git a/Source/Diffusion/PBLModels.cpp b/Source/Diffusion/PBLModels.cpp index 673ad5b0c..b6e7d00b3 100644 --- a/Source/Diffusion/PBLModels.cpp +++ b/Source/Diffusion/PBLModels.cpp @@ -203,28 +203,29 @@ ComputeTurbulentViscosityPBL (const amrex::MultiFab& xvel, // NOTE: Level 2 limiting from balance of production and dissipation. // K_turb has a setval of 0.0 when the MF is created (NOT EACH STEP). // We do this inline to avoid storing qe^2 at each cell. - amrex::Real shearProd = dudz*dudz + dvdz*dvdz; - amrex::Real buoyProd = -(CONST_GRAV/theta0) * dthetadz; - amrex::Real lSM = K_turb(i,j,k,EddyDiff::Mom_v) / (qvel_old(i,j,k) + eps); - amrex::Real lSH = K_turb(i,j,k,EddyDiff::Theta_v) / (qvel_old(i,j,k) + eps); - amrex::Real qe2 = B1 * l_comb * ( lSM * shearProd + lSH * buoyProd ); - amrex::Real qe = (qe2 < 0.0) ? 0.0 : std::sqrt(qe2); - - // Compute non-dimensional parameters + amrex::Real l_comb_old = K_turb(i,j,k,EddyDiff::PBL_lengthscale); + amrex::Real shearProd = dudz*dudz + dvdz*dvdz; + amrex::Real buoyProd = -(CONST_GRAV/theta0) * dthetadz; + amrex::Real lSM = K_turb(i,j,k,EddyDiff::Mom_v) / (qvel_old(i,j,k) + eps); + amrex::Real lSH = K_turb(i,j,k,EddyDiff::Theta_v) / (qvel_old(i,j,k) + eps); + amrex::Real qe2 = B1 * l_comb_old * ( lSM * shearProd + lSH * buoyProd ); + amrex::Real qe = (qe2 < 0.0) ? 0.0 : std::sqrt(qe2); amrex::Real one_m_alpha = (qvel(i,j,k) > qe) ? 1.0 : qvel(i,j,k) / (qe + eps); amrex::Real one_m_alpha2 = one_m_alpha * one_m_alpha; + + // Compute non-dimensional parameters amrex::Real l2_over_q2 = l_comb*l_comb/(qvel(i,j,k)*qvel(i,j,k)); amrex::Real GM = l2_over_q2 * shearProd; amrex::Real GH = l2_over_q2 * buoyProd; amrex::Real E1 = 1.0 + one_m_alpha2 * ( 6.0*A1*A1*GM - 9.0*A1*A2*(1.0-C2)*GH ); amrex::Real E2 = one_m_alpha2 * ( -3.0*A1*(4.0*A1 + 3.0*A2*(1.0-C5))*(1.0-C2)*GH ); - amrex::Real E3 = one_m_alpha2 * ( 6.0*A2*A1*GM ); - amrex::Real E4 = 1.0 + one_m_alpha2 * ( -12.0*A2*A1*(1.0-C2)*GH - 3.0*A2*B2*(1.0-C3)*GH ); + amrex::Real E3 = one_m_alpha2 * ( 6.0*A1*A2*GM ); + amrex::Real E4 = 1.0 + one_m_alpha2 * ( -12.0*A1*A2*(1.0-C2)*GH - 3.0*A2*B2*(1.0-C3)*GH ); amrex::Real R1 = one_m_alpha * ( A1*(1.0-3.0*C1) ); amrex::Real R2 = one_m_alpha * A2; amrex::Real SM = (R2*E2 - R1*E4)/(E2*E3 - E1*E4); - amrex::Real SH = (R1*E3 - A2*E1)/(E2*E3 - E1*E4); + amrex::Real SH = (R1*E3 - R2*E1)/(E2*E3 - E1*E4); amrex::Real SQ = 3.0 * SM; // Finally, compute the eddy viscosity/diffusivities