00001 subroutine source_adm_mass_peos_spin(soug,souf)
00002 use phys_constant, only : long, pi
00003 use grid_parameter, only : nrg, ntg, npg, nrf, ntf, npf
00004 use def_matter, only : emdg, emd, vep, vepxf, vepyf, vepzf
00005 use def_metric_on_SFC_CF
00006 use def_velocity_rot
00007 use def_vector_phi, only : hvec_phif, vec_phif
00008 use def_matter_parameter, only : radi, ber, ome
00009 use def_metric, only : tfkijkij, psi, alph
00010 use make_array_3d
00011 use interface_flgrad_4th_gridpoint
00012 use interface_flgrad_2nd_gridpoint
00013 use interface_interpo_gr2fl
00014 use interface_interpo_linear_type0
00015 implicit none
00016 real(long), pointer :: soug(:,:,:)
00017 real(long), pointer :: souf(:,:,:)
00018 integer :: irg,itg,ipg,irf,itf,ipf
00019 real(long) :: psiwm7
00020 real(long) :: emdw, alphw, psiw, rhow, prew, hhw, utw, rhoHw
00021 real(long) :: epsilonw, alutw
00022 real(long) :: dxvep, dyvep, dzvep, lam, alphw2, ovdfc(3)
00023 real(long) :: zfac, small = 1.0d-15
00024 real(long) :: wx,wy,wz,psiw4,psiwp,dvep2,wdvep,w2,wterm,uih2,hut
00025
00026 do ipg = 1, npg
00027 do itg = 1, ntg
00028 do irg = 1, nrg
00029 call interpo_linear_type0(psiw,psi,irg,itg,ipg)
00030 soug(irg,itg,ipg) = 0.125d0*psiw**5*tfkijkij(irg,itg,ipg)
00031 end do
00032 end do
00033 end do
00034
00035 do ipf = 0, npf
00036 do itf = 0, ntf
00037 do irf = 0, nrf
00038 emdw = emd(irf,itf,ipf)
00039 if (emdw <= small) emdw = small
00040 psiw = psif(irf,itf,ipf)
00041 alphw = alphf(irf,itf,ipf)
00042 call peos_q2hprho(emdw, hhw, prew, rhow, epsilonw)
00043
00044 ovdfc(1) = bvxdf(irf,itf,ipf) + ome*vec_phif(irf,itf,ipf,1)
00045 ovdfc(2) = bvydf(irf,itf,ipf) + ome*vec_phif(irf,itf,ipf,2)
00046 ovdfc(3) = bvzdf(irf,itf,ipf) + ome*vec_phif(irf,itf,ipf,3)
00047 dxvep = vepxf(irf,itf,ipf)
00048 dyvep = vepyf(irf,itf,ipf)
00049 dzvep = vepzf(irf,itf,ipf)
00050
00051 wx = wxspf(irf,itf,ipf)
00052 wy = wyspf(irf,itf,ipf)
00053 wz = wzspf(irf,itf,ipf)
00054 psiw4 = psiw**4
00055 psiwp = psiw**confpow
00056 alphw2 = alphw**2
00057 lam = ber + ovdfc(1)*dxvep + ovdfc(2)*dyvep + ovdfc(3)*dzvep
00058 dvep2 = (dxvep**2 + dyvep**2 + dzvep**2)/psiw4
00059 wdvep = (wx*dxvep + wy*dyvep + wz*dzvep)*psiwp
00060 w2 = psiw4*(wx*wx + wy*wy + wz*wz)*psiwp**2.0d0
00061 wterm = wdvep + w2
00062 uih2 = dvep2 + 2.0d0*wdvep + w2
00063 if ( (lam*lam + 4.0d0*alphw2*wterm)<0.0d0 ) then
00064 write(6,*) "hut imaginary....exiting"
00065 stop
00066 end if
00067 hut = (lam + sqrt(lam*lam + 4.0d0*alphw2*wterm))/(2.0d0*alphw2)
00068 utw = hut/hhw
00069 alutw = alphw*utw
00070
00071
00072 souf(irf,itf,ipf) = 2.0d0*pi*psiw**5 &
00073 & *(epsilonw*alutw**2 + prew*(alutw-1.0d0)*(alutw+1.0d0))
00074 end do
00075 end do
00076 end do
00077
00078 end subroutine source_adm_mass_peos_spin
