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module cv30_yield_m |
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implicit none |
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contains |
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SUBROUTINE cv30_yield(icb, inb, delt, t, rr, u, v, gz, p, ph, h, hp, lv, & |
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cpn, th, ep, clw, m, tp, mp, rp, up, vp, wt, water, evap, b, ment, & |
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qent, uent, vent, nent, elij, sig, tv, tvp, iflag, precip, VPrecip, & |
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ft, fr, fu, fv, upwd, dnwd, dnwd0, ma, mike, tls, tps, qcondc) |
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! Tendencies, precipitation, variables of interface with other |
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! processes, etc. |
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use conema3_m, only: iflag_clw |
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use cv30_param_m, only: minorig, nl, sigd |
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use cv_thermo_m, only: cl, cpd, cpv, grav, rowl, rrd, rrv |
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USE dimphy, ONLY: klev, klon |
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! inputs: |
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integer, intent(in):: icb(:), inb(:) ! (ncum) |
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real, intent(in):: delt |
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real t(klon, klev), rr(klon, klev), u(klon, klev), v(klon, klev) |
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real gz(klon, klev) |
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real p(klon, klev) |
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real ph(klon, klev + 1), h(klon, klev), hp(klon, klev) |
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real lv(klon, klev), cpn(klon, klev) |
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real th(klon, klev) |
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real ep(klon, klev), clw(klon, klev) |
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real m(klon, klev) |
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real tp(klon, klev) |
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real mp(klon, klev), rp(klon, klev), up(klon, klev) |
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real, intent(in):: vp(:, 2:) ! (ncum, 2:nl) |
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real, intent(in):: wt(:, :) ! (ncum, nl - 1) |
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real, intent(in):: water(:, :), evap(:, :) ! (ncum, nl) |
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real, intent(in):: b(:, :) ! (ncum, nl - 1) |
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real ment(klon, klev, klev), qent(klon, klev, klev), uent(klon, klev, klev) |
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real vent(klon, klev, klev) |
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integer nent(klon, klev) |
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real elij(klon, klev, klev) |
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real sig(klon, klev) |
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real tv(klon, klev), tvp(klon, klev) |
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integer, intent(out):: iflag(:) ! (ncum) |
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! outputs: |
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real precip(klon) |
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real VPrecip(klon, klev + 1) |
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real ft(klon, klev), fr(klon, klev), fu(klon, klev), fv(klon, klev) |
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real upwd(klon, klev), dnwd(klon, klev) |
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real dnwd0(klon, klev) |
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real ma(klon, klev) |
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real mike(klon, klev) |
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real tls(klon, klev), tps(klon, klev) |
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real qcondc(klon, klev) |
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! Local: |
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real, parameter:: delta = 0.01 ! interface cloud parameterization |
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integer ncum |
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integer i, k, il, n, j, num1 |
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real rat, awat, delti |
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real ax, bx, cx, dx |
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real cpinv, rdcp, dpinv |
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real lvcp(klon, klev) |
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real am(klon), work(klon), ad(klon), amp1(klon) |
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real up1(klon, klev, klev), dn1(klon, klev, klev) |
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real asum(klon), bsum(klon), csum(klon), dsum(klon) |
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real qcond(klon, klev), nqcond(klon, klev), wa(klon, klev) |
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real siga(klon, klev), sax(klon, klev), mac(klon, klev) |
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!------------------------------------------------------------- |
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ncum = size(icb) |
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iflag = 0 |
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! initialization: |
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delti = 1.0 / delt |
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do il = 1, ncum |
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precip(il) = 0.0 |
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VPrecip(il, klev + 1) = 0. |
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enddo |
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do i = 1, klev |
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do il = 1, ncum |
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VPrecip(il, i) = 0.0 |
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ft(il, i) = 0.0 |
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fr(il, i) = 0.0 |
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fu(il, i) = 0.0 |
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fv(il, i) = 0.0 |
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qcondc(il, i) = 0.0 |
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qcond(il, i) = 0.0 |
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nqcond(il, i) = 0.0 |
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enddo |
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enddo |
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do i = 1, nl |
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do il = 1, ncum |
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lvcp(il, i) = lv(il, i) / cpn(il, i) |
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enddo |
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enddo |
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! calculate surface precipitation in mm / day |
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do il = 1, ncum |
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if (ep(il, inb(il)) >= 1e-4) precip(il) = wt(il, 1) * sigd & |
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* water(il, 1) * 86400. * 1000. / (rowl * grav) |
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enddo |
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! CALCULATE VERTICAL PROFILE OF PRECIPITATIONs IN kg / m2 / s === |
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! MAF rajout pour lessivage |
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do k = 1, nl - 1 |
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do il = 1, ncum |
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if (k <= inb(il)) VPrecip(il, k) = wt(il, k) * sigd * water(il, k) & |
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/ grav |
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end do |
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end do |
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! calculate tendencies of lowest level potential temperature |
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! and mixing ratio |
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do il = 1, ncum |
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work(il) = 1.0 / (ph(il, 1) - ph(il, 2)) |
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am(il) = 0.0 |
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enddo |
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do k = 2, nl |
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do il = 1, ncum |
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if (k <= inb(il)) am(il) = am(il) + m(il, k) |
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enddo |
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enddo |
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do il = 1, ncum |
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! Consist vect: |
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if (0.01 * grav * work(il) * am(il) >= delti) iflag(il) = 1 |
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ft(il, 1) = 0.01 * grav * work(il) * am(il) * (t(il, 2) - t(il, 1) & |
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+ (gz(il, 2) - gz(il, 1)) / cpn(il, 1)) |
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ft(il, 1) = ft(il, 1) - 0.5 * lvcp(il, 1) * sigd * (evap(il, 1) & |
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+ evap(il, 2)) |
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ft(il, 1) = ft(il, 1) - 0.009 * grav * sigd * mp(il, 2) & |
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* t(il, 1) * b(il, 1) * work(il) |
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ft(il, 1) = ft(il, 1) + 0.01 * sigd * wt(il, 1) * (cl - cpd) & |
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* water(il, 2) * (t(il, 2) - t(il, 1)) * work(il) / cpn(il, 1) |
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!jyg1 Correction pour mieux conserver l'eau (conformite avec CONVECT4.3) |
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! (sb: pour l'instant, on ne fait que le chgt concernant grav, pas evap) |
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fr(il, 1) = 0.01 * grav * mp(il, 2) * (rp(il, 2) - rr(il, 1)) & |
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* work(il) + sigd * 0.5 * (evap(il, 1) + evap(il, 2)) |
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! + tard : + sigd * evap(il, 1) |
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fr(il, 1) = fr(il, 1) + 0.01 * grav * am(il) * (rr(il, 2) - rr(il, 1)) & |
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* work(il) |
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fu(il, 1) = fu(il, 1) + 0.01 * grav * work(il) * (mp(il, 2) & |
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* (up(il, 2) - u(il, 1)) + am(il) * (u(il, 2) - u(il, 1))) |
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fv(il, 1) = fv(il, 1) + 0.01 * grav * work(il) * (mp(il, 2) & |
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* (vp(il, 2) - v(il, 1)) + am(il) * (v(il, 2) - v(il, 1))) |
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enddo ! il |
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do j = 2, nl |
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do il = 1, ncum |
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if (j <= inb(il)) then |
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fr(il, 1) = fr(il, 1) + 0.01 * grav * work(il) * ment(il, j, 1) & |
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* (qent(il, j, 1) - rr(il, 1)) |
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fu(il, 1) = fu(il, 1) + 0.01 * grav * work(il) * ment(il, j, 1) & |
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* (uent(il, j, 1) - u(il, 1)) |
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fv(il, 1) = fv(il, 1) + 0.01 * grav * work(il) * ment(il, j, 1) & |
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* (vent(il, j, 1) - v(il, 1)) |
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endif |
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enddo |
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enddo |
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! calculate tendencies of potential temperature and mixing ratio |
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! at levels above the lowest level |
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! first find the net saturated updraft and downdraft mass fluxes |
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! through each level |
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loop_i: do i = 2, nl - 1 |
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num1 = 0 |
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do il = 1, ncum |
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if (i <= inb(il)) num1 = num1 + 1 |
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enddo |
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if (num1 > 0) then |
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amp1(:ncum) = 0. |
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ad(:ncum) = 0. |
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do k = i + 1, nl + 1 |
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do il = 1, ncum |
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if (i <= inb(il) .and. k <= (inb(il) + 1)) then |
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amp1(il) = amp1(il) + m(il, k) |
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endif |
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end do |
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end do |
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do k = 1, i |
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do j = i + 1, nl + 1 |
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do il = 1, ncum |
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if (i <= inb(il) .and. j <= (inb(il) + 1)) then |
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amp1(il) = amp1(il) + ment(il, k, j) |
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endif |
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end do |
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end do |
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end do |
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do k = 1, i - 1 |
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do j = i, nl + 1 ! newvecto: nl au lieu nl + 1? |
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do il = 1, ncum |
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if (i <= inb(il) .and. j <= inb(il)) then |
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ad(il) = ad(il) + ment(il, j, k) |
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endif |
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end do |
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end do |
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end do |
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do il = 1, ncum |
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if (i <= inb(il)) then |
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dpinv = 1.0 / (ph(il, i) - ph(il, i + 1)) |
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cpinv = 1.0 / cpn(il, i) |
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! Vecto: |
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if (0.01 * grav * dpinv * amp1(il) >= delti) iflag(il) = 1 |
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ft(il, i) = 0.01 * grav * dpinv * (amp1(il) * (t(il, i + 1) & |
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- t(il, i) + (gz(il, i + 1) - gz(il, i)) * cpinv) & |
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- ad(il) * (t(il, i) - t(il, i - 1) + (gz(il, i) & |
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- gz(il, i - 1)) * cpinv)) - 0.5 * sigd * lvcp(il, i) & |
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* (evap(il, i) + evap(il, i + 1)) |
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rat = cpn(il, i - 1) * cpinv |
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ft(il, i) = ft(il, i) - 0.009 * grav * sigd * (mp(il, i + 1) & |
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* t(il, i) * b(il, i) - mp(il, i) * t(il, i - 1) * rat & |
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* b(il, i - 1)) * dpinv |
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ft(il, i) = ft(il, i) + 0.01 * grav * dpinv * ment(il, i, i) & |
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* (hp(il, i) - h(il, i) + t(il, i) * (cpv - cpd) & |
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* (rr(il, i) - qent(il, i, i))) * cpinv |
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ft(il, i) = ft(il, i) + 0.01 * sigd * wt(il, i) * (cl - cpd) & |
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* water(il, i + 1) * (t(il, i + 1) - t(il, i)) * dpinv & |
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* cpinv |
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fr(il, i) = 0.01 * grav * dpinv * (amp1(il) * (rr(il, i + 1) & |
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- rr(il, i)) - ad(il) * (rr(il, i) - rr(il, i - 1))) |
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fu(il, i) = fu(il, i) + 0.01 * grav * dpinv * (amp1(il) & |
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* (u(il, i + 1) - u(il, i)) - ad(il) * (u(il, i) & |
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- u(il, i - 1))) |
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fv(il, i) = fv(il, i) + 0.01 * grav * dpinv * (amp1(il) & |
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* (v(il, i + 1) - v(il, i)) - ad(il) * (v(il, i) & |
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- v(il, i - 1))) |
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endif |
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end do |
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do k = 1, i - 1 |
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do il = 1, ncum |
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if (i <= inb(il)) then |
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dpinv = 1.0 / (ph(il, i) - ph(il, i + 1)) |
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cpinv = 1.0 / cpn(il, i) |
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awat = elij(il, k, i) - (1. - ep(il, i)) * clw(il, i) |
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awat = amax1(awat, 0.0) |
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fr(il, i) = fr(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (qent(il, k, i) - awat - rr(il, i)) |
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fu(il, i) = fu(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (uent(il, k, i) - u(il, i)) |
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fv(il, i) = fv(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (vent(il, k, i) - v(il, i)) |
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! (saturated updrafts resulting from mixing) |
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qcond(il, i) = qcond(il, i) + (elij(il, k, i) - awat) |
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nqcond(il, i) = nqcond(il, i) + 1. |
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endif ! i |
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end do |
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end do |
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do k = i, nl + 1 |
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do il = 1, ncum |
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if (i <= inb(il) .and. k <= inb(il)) then |
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dpinv = 1.0 / (ph(il, i) - ph(il, i + 1)) |
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cpinv = 1.0 / cpn(il, i) |
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fr(il, i) = fr(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (qent(il, k, i) - rr(il, i)) |
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fu(il, i) = fu(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (uent(il, k, i) - u(il, i)) |
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fv(il, i) = fv(il, i) + 0.01 * grav * dpinv & |
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* ment(il, k, i) * (vent(il, k, i) - v(il, i)) |
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endif |
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end do |
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end do |
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do il = 1, ncum |
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if (i <= inb(il)) then |
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dpinv = 1.0 / (ph(il, i) - ph(il, i + 1)) |
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|
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cpinv = 1.0 / cpn(il, i) |
303 |
guez |
47 |
|
304 |
guez |
188 |
! sb: on ne fait pas encore la correction permettant de mieux |
305 |
|
|
! conserver l'eau: |
306 |
|
|
fr(il, i) = fr(il, i) + 0.5 * sigd * (evap(il, i) & |
307 |
|
|
+ evap(il, i + 1)) + 0.01 * grav * (mp(il, i + 1) & |
308 |
|
|
* (rp(il, i + 1) - rr(il, i)) - mp(il, i) * (rp(il, i) & |
309 |
|
|
- rr(il, i - 1))) * dpinv |
310 |
guez |
47 |
|
311 |
guez |
188 |
fu(il, i) = fu(il, i) + 0.01 * grav * (mp(il, i + 1) & |
312 |
|
|
* (up(il, i + 1) - u(il, i)) - mp(il, i) * (up(il, i) & |
313 |
|
|
- u(il, i - 1))) * dpinv |
314 |
|
|
fv(il, i) = fv(il, i) + 0.01 * grav * (mp(il, i + 1) & |
315 |
|
|
* (vp(il, i + 1) - v(il, i)) - mp(il, i) * (vp(il, i) & |
316 |
|
|
- v(il, i - 1))) * dpinv |
317 |
|
|
endif |
318 |
|
|
end do |
319 |
guez |
47 |
|
320 |
guez |
188 |
! sb: interface with the cloud parameterization: |
321 |
guez |
47 |
|
322 |
guez |
188 |
do k = i + 1, nl |
323 |
|
|
do il = 1, ncum |
324 |
|
|
if (k <= inb(il) .and. i <= inb(il)) then |
325 |
|
|
! (saturated downdrafts resulting from mixing) |
326 |
|
|
qcond(il, i) = qcond(il, i) + elij(il, k, i) |
327 |
|
|
nqcond(il, i) = nqcond(il, i) + 1. |
328 |
|
|
endif |
329 |
|
|
enddo |
330 |
|
|
enddo |
331 |
guez |
47 |
|
332 |
guez |
188 |
! (particular case: no detraining level is found) |
333 |
|
|
do il = 1, ncum |
334 |
|
|
if (i <= inb(il) .and. nent(il, i) == 0) then |
335 |
|
|
qcond(il, i) = qcond(il, i) + (1. - ep(il, i)) * clw(il, i) |
336 |
|
|
nqcond(il, i) = nqcond(il, i) + 1. |
337 |
|
|
endif |
338 |
|
|
enddo |
339 |
guez |
47 |
|
340 |
guez |
188 |
do il = 1, ncum |
341 |
|
|
if (i <= inb(il) .and. nqcond(il, i) /= 0.) then |
342 |
|
|
qcond(il, i) = qcond(il, i) / nqcond(il, i) |
343 |
|
|
endif |
344 |
|
|
enddo |
345 |
|
|
end if |
346 |
|
|
end do loop_i |
347 |
guez |
47 |
|
348 |
guez |
188 |
! move the detrainment at level inb down to level inb - 1 |
349 |
|
|
! in such a way as to preserve the vertically |
350 |
|
|
! integrated enthalpy and water tendencies |
351 |
guez |
47 |
|
352 |
guez |
188 |
do il = 1, ncum |
353 |
|
|
ax = 0.1 * ment(il, inb(il), inb(il)) * (hp(il, inb(il)) & |
354 |
|
|
- h(il, inb(il)) + t(il, inb(il)) * (cpv - cpd) & |
355 |
|
|
* (rr(il, inb(il)) - qent(il, inb(il), inb(il)))) & |
356 |
|
|
/ (cpn(il, inb(il)) * (ph(il, inb(il)) - ph(il, inb(il) + 1))) |
357 |
|
|
ft(il, inb(il)) = ft(il, inb(il)) - ax |
358 |
|
|
ft(il, inb(il) - 1) = ft(il, inb(il) - 1) + ax * cpn(il, inb(il)) & |
359 |
|
|
* (ph(il, inb(il)) - ph(il, inb(il) + 1)) / (cpn(il, inb(il) - 1) & |
360 |
|
|
* (ph(il, inb(il) - 1) - ph(il, inb(il)))) |
361 |
guez |
47 |
|
362 |
guez |
188 |
bx = 0.1 * ment(il, inb(il), inb(il)) * (qent(il, inb(il), inb(il)) & |
363 |
|
|
- rr(il, inb(il))) / (ph(il, inb(il)) - ph(il, inb(il) + 1)) |
364 |
|
|
fr(il, inb(il)) = fr(il, inb(il)) - bx |
365 |
|
|
fr(il, inb(il) - 1) = fr(il, inb(il) - 1) & |
366 |
|
|
+ bx * (ph(il, inb(il)) - ph(il, inb(il) + 1)) & |
367 |
|
|
/ (ph(il, inb(il) - 1) - ph(il, inb(il))) |
368 |
guez |
47 |
|
369 |
guez |
188 |
cx = 0.1 * ment(il, inb(il), inb(il)) * (uent(il, inb(il), inb(il)) & |
370 |
|
|
- u(il, inb(il))) / (ph(il, inb(il)) - ph(il, inb(il) + 1)) |
371 |
|
|
fu(il, inb(il)) = fu(il, inb(il)) - cx |
372 |
|
|
fu(il, inb(il) - 1) = fu(il, inb(il) - 1) & |
373 |
|
|
+ cx * (ph(il, inb(il)) - ph(il, inb(il) + 1)) & |
374 |
|
|
/ (ph(il, inb(il) - 1) - ph(il, inb(il))) |
375 |
guez |
47 |
|
376 |
guez |
188 |
dx = 0.1 * ment(il, inb(il), inb(il)) * (vent(il, inb(il), inb(il)) & |
377 |
|
|
- v(il, inb(il))) / (ph(il, inb(il)) - ph(il, inb(il) + 1)) |
378 |
|
|
fv(il, inb(il)) = fv(il, inb(il)) - dx |
379 |
|
|
fv(il, inb(il) - 1) = fv(il, inb(il) - 1) & |
380 |
|
|
+ dx * (ph(il, inb(il)) - ph(il, inb(il) + 1)) & |
381 |
|
|
/ (ph(il, inb(il) - 1) - ph(il, inb(il))) |
382 |
guez |
47 |
|
383 |
guez |
97 |
end do |
384 |
guez |
47 |
|
385 |
guez |
188 |
! homoginize tendencies below cloud base |
386 |
guez |
187 |
|
387 |
guez |
188 |
do il = 1, ncum |
388 |
|
|
asum(il) = 0.0 |
389 |
|
|
bsum(il) = 0.0 |
390 |
|
|
csum(il) = 0.0 |
391 |
|
|
dsum(il) = 0.0 |
392 |
guez |
97 |
enddo |
393 |
guez |
47 |
|
394 |
guez |
188 |
do i = 1, nl |
395 |
|
|
do il = 1, ncum |
396 |
|
|
if (i <= (icb(il) - 1)) then |
397 |
|
|
asum(il) = asum(il) + ft(il, i) * (ph(il, i) - ph(il, i + 1)) |
398 |
|
|
bsum(il) = bsum(il) + fr(il, i) * (lv(il, i) + (cl - cpd) & |
399 |
|
|
* (t(il, i) - t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
400 |
|
|
csum(il) = csum(il) + (lv(il, i) + (cl - cpd) * (t(il, i) & |
401 |
|
|
- t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
402 |
|
|
dsum(il) = dsum(il) + t(il, i) * (ph(il, i) - ph(il, i + 1)) & |
403 |
|
|
/ th(il, i) |
404 |
guez |
97 |
endif |
405 |
guez |
47 |
enddo |
406 |
guez |
97 |
enddo |
407 |
guez |
47 |
|
408 |
guez |
188 |
do i = 1, nl |
409 |
|
|
do il = 1, ncum |
410 |
|
|
if (i <= (icb(il) - 1)) then |
411 |
|
|
ft(il, i) = asum(il) * t(il, i) / (th(il, i) * dsum(il)) |
412 |
|
|
fr(il, i) = bsum(il) / csum(il) |
413 |
guez |
97 |
endif |
414 |
guez |
47 |
enddo |
415 |
guez |
97 |
enddo |
416 |
guez |
47 |
|
417 |
guez |
188 |
! reset counter and return |
418 |
guez |
187 |
|
419 |
guez |
188 |
do il = 1, ncum |
420 |
|
|
sig(il, klev) = 2.0 |
421 |
guez |
97 |
enddo |
422 |
guez |
47 |
|
423 |
guez |
188 |
do i = 1, klev |
424 |
|
|
do il = 1, ncum |
425 |
|
|
upwd(il, i) = 0.0 |
426 |
|
|
dnwd(il, i) = 0.0 |
427 |
guez |
47 |
enddo |
428 |
guez |
97 |
enddo |
429 |
guez |
47 |
|
430 |
guez |
188 |
do i = 1, nl |
431 |
|
|
do il = 1, ncum |
432 |
|
|
dnwd0(il, i) = - mp(il, i) |
433 |
guez |
47 |
enddo |
434 |
guez |
97 |
enddo |
435 |
guez |
188 |
do i = nl + 1, klev |
436 |
|
|
do il = 1, ncum |
437 |
|
|
dnwd0(il, i) = 0. |
438 |
guez |
47 |
enddo |
439 |
guez |
97 |
enddo |
440 |
guez |
47 |
|
441 |
guez |
188 |
do i = 1, nl |
442 |
|
|
do il = 1, ncum |
443 |
guez |
187 |
if (i >= icb(il) .and. i <= inb(il)) then |
444 |
guez |
188 |
upwd(il, i) = 0.0 |
445 |
|
|
dnwd(il, i) = 0.0 |
446 |
guez |
97 |
endif |
447 |
guez |
47 |
enddo |
448 |
guez |
97 |
enddo |
449 |
guez |
47 |
|
450 |
guez |
188 |
do i = 1, nl |
451 |
|
|
do k = 1, nl |
452 |
|
|
do il = 1, ncum |
453 |
|
|
up1(il, k, i) = 0.0 |
454 |
|
|
dn1(il, k, i) = 0.0 |
455 |
guez |
97 |
enddo |
456 |
guez |
47 |
enddo |
457 |
guez |
97 |
enddo |
458 |
guez |
47 |
|
459 |
guez |
188 |
do i = 1, nl |
460 |
|
|
do k = i, nl |
461 |
|
|
do n = 1, i - 1 |
462 |
|
|
do il = 1, ncum |
463 |
guez |
187 |
if (i >= icb(il).and.i <= inb(il).and.k <= inb(il)) then |
464 |
guez |
188 |
up1(il, k, i) = up1(il, k, i) + ment(il, n, k) |
465 |
|
|
dn1(il, k, i) = dn1(il, k, i) - ment(il, k, n) |
466 |
guez |
97 |
endif |
467 |
|
|
enddo |
468 |
|
|
enddo |
469 |
guez |
47 |
enddo |
470 |
guez |
97 |
enddo |
471 |
guez |
47 |
|
472 |
guez |
188 |
do i = 2, nl |
473 |
|
|
do k = i, nl |
474 |
|
|
do il = 1, ncum |
475 |
guez |
187 |
if (i <= inb(il).and.k <= inb(il)) then |
476 |
guez |
188 |
upwd(il, i) = upwd(il, i) + m(il, k) + up1(il, k, i) |
477 |
|
|
dnwd(il, i) = dnwd(il, i) + dn1(il, k, i) |
478 |
guez |
97 |
endif |
479 |
|
|
enddo |
480 |
guez |
47 |
enddo |
481 |
guez |
97 |
enddo |
482 |
guez |
47 |
|
483 |
guez |
97 |
!ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
484 |
guez |
187 |
! determination de la variation de flux ascendant entre |
485 |
|
|
! deux niveau non dilue mike |
486 |
guez |
97 |
!ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
487 |
guez |
47 |
|
488 |
guez |
188 |
do i = 1, nl |
489 |
|
|
do il = 1, ncum |
490 |
|
|
mike(il, i) = m(il, i) |
491 |
guez |
47 |
enddo |
492 |
guez |
97 |
enddo |
493 |
guez |
47 |
|
494 |
guez |
188 |
do i = nl + 1, klev |
495 |
|
|
do il = 1, ncum |
496 |
|
|
mike(il, i) = 0. |
497 |
guez |
47 |
enddo |
498 |
guez |
97 |
enddo |
499 |
guez |
47 |
|
500 |
guez |
188 |
do i = 1, klev |
501 |
|
|
do il = 1, ncum |
502 |
|
|
ma(il, i) = 0 |
503 |
guez |
47 |
enddo |
504 |
guez |
97 |
enddo |
505 |
guez |
47 |
|
506 |
guez |
188 |
do i = 1, nl |
507 |
|
|
do j = i, nl |
508 |
|
|
do il = 1, ncum |
509 |
|
|
ma(il, i) = ma(il, i) + m(il, j) |
510 |
guez |
97 |
enddo |
511 |
guez |
47 |
enddo |
512 |
guez |
97 |
enddo |
513 |
guez |
47 |
|
514 |
guez |
188 |
do i = nl + 1, klev |
515 |
|
|
do il = 1, ncum |
516 |
|
|
ma(il, i) = 0. |
517 |
guez |
47 |
enddo |
518 |
guez |
97 |
enddo |
519 |
guez |
47 |
|
520 |
guez |
188 |
do i = 1, nl |
521 |
|
|
do il = 1, ncum |
522 |
|
|
if (i <= (icb(il) - 1)) then |
523 |
|
|
ma(il, i) = 0 |
524 |
guez |
97 |
endif |
525 |
guez |
47 |
enddo |
526 |
guez |
97 |
enddo |
527 |
guez |
47 |
|
528 |
guez |
97 |
!cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
529 |
guez |
187 |
! icb represente de niveau ou se trouve la |
530 |
|
|
! base du nuage, et inb le top du nuage |
531 |
guez |
97 |
!ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
532 |
guez |
47 |
|
533 |
guez |
188 |
do i = 1, klev |
534 |
|
|
DO il = 1, ncum |
535 |
|
|
rdcp = (rrd * (1. - rr(il, i)) - rr(il, i) * rrv) & |
536 |
|
|
/ (cpd * (1. - rr(il, i)) + rr(il, i) * cpv) |
537 |
|
|
tls(il, i) = t(il, i) * (1000.0 / p(il, i))**rdcp |
538 |
|
|
tps(il, i) = tp(il, i) |
539 |
guez |
97 |
end DO |
540 |
|
|
enddo |
541 |
guez |
47 |
|
542 |
guez |
188 |
! diagnose the in-cloud mixing ratio |
543 |
|
|
! of condensed water |
544 |
|
|
! |
545 |
guez |
47 |
|
546 |
guez |
188 |
do i = 1, klev |
547 |
|
|
do il = 1, ncum |
548 |
|
|
mac(il, i) = 0.0 |
549 |
|
|
wa(il, i) = 0.0 |
550 |
|
|
siga(il, i) = 0.0 |
551 |
|
|
sax(il, i) = 0.0 |
552 |
|
|
enddo |
553 |
|
|
enddo |
554 |
guez |
47 |
|
555 |
guez |
188 |
do i = minorig, nl |
556 |
|
|
do k = i + 1, nl + 1 |
557 |
|
|
do il = 1, ncum |
558 |
|
|
if (i <= inb(il) .and. k <= (inb(il) + 1)) then |
559 |
|
|
mac(il, i) = mac(il, i) + m(il, k) |
560 |
|
|
endif |
561 |
|
|
enddo |
562 |
|
|
enddo |
563 |
|
|
enddo |
564 |
guez |
47 |
|
565 |
guez |
188 |
do i = 1, nl |
566 |
|
|
do j = 1, i |
567 |
|
|
do il = 1, ncum |
568 |
|
|
if (i >= icb(il) .and. i <= (inb(il) - 1) & |
569 |
|
|
.and. j >= icb(il)) then |
570 |
|
|
sax(il, i) = sax(il, i) + rrd * (tvp(il, j) - tv(il, j)) & |
571 |
|
|
* (ph(il, j) - ph(il, j + 1)) / p(il, j) |
572 |
|
|
endif |
573 |
|
|
enddo |
574 |
|
|
enddo |
575 |
|
|
enddo |
576 |
guez |
97 |
|
577 |
guez |
188 |
do i = 1, nl |
578 |
|
|
do il = 1, ncum |
579 |
|
|
if (i >= icb(il) .and. i <= (inb(il) - 1) & |
580 |
|
|
.and. sax(il, i) > 0.0) then |
581 |
|
|
wa(il, i) = sqrt(2. * sax(il, i)) |
582 |
|
|
endif |
583 |
|
|
enddo |
584 |
|
|
enddo |
585 |
guez |
47 |
|
586 |
guez |
188 |
do i = 1, nl |
587 |
|
|
do il = 1, ncum |
588 |
|
|
if (wa(il, i) > 0.0) siga(il, i) = mac(il, i) / wa(il, i) * rrd & |
589 |
|
|
* tvp(il, i) / p(il, i) / 100. / delta |
590 |
|
|
siga(il, i) = min(siga(il, i), 1.0) |
591 |
|
|
|
592 |
guez |
187 |
if (iflag_clw == 0) then |
593 |
guez |
188 |
qcondc(il, i) = siga(il, i) * clw(il, i) * (1. - ep(il, i)) & |
594 |
|
|
+ (1. - siga(il, i)) * qcond(il, i) |
595 |
guez |
187 |
else if (iflag_clw == 1) then |
596 |
guez |
188 |
qcondc(il, i) = qcond(il, i) |
597 |
guez |
97 |
endif |
598 |
guez |
188 |
enddo |
599 |
|
|
enddo |
600 |
guez |
47 |
|
601 |
guez |
185 |
end SUBROUTINE cv30_yield |
602 |
guez |
97 |
|
603 |
guez |
185 |
end module cv30_yield_m |