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contains |
contains |
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SUBROUTINE cv30_yield(icb, inb, delt, t, rr, u, v, gz, p, ph, h, hp, lv, & |
SUBROUTINE cv30_yield(icb, inb, delt, t, rr, u, v, gz, p, ph, h, hp, lv, & |
8 |
cpn, th, ep, clw, m, tp, mp, rp, up, vp, wt, water, evap, b, ment, & |
cpn, th, ep, clw, m, tp, mp, qp, up, vp, wt, water, evap, b, ment, & |
9 |
qent, uent, vent, nent, elij, sig, tv, tvp, iflag, precip, VPrecip, & |
qent, uent, vent, nent, elij, sig, tv, tvp, iflag, precip, VPrecip, & |
10 |
ft, fr, fu, fv, upwd, dnwd, dnwd0, ma, mike, tls, tps, qcondc) |
ft, fr, fu, fv, upwd, dnwd, ma, mike, tls, tps, qcondc) |
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! Tendencies, precipitation, variables of interface with other |
! Tendencies, precipitation, variables of interface with other |
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! processes, etc. |
! processes, etc. |
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use conema3_m, only: iflag_clw |
use conema3_m, only: iflag_clw |
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use cv30_param_m, only: minorig, nl, sigd |
use cv30_param_m, only: minorig, nl, sigd |
17 |
use cv_thermo_m, only: cl, cpd, cpv, rowl, rrd, rrv |
use cv_thermo_m, only: rowl |
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USE dimphy, ONLY: klev, klon |
USE dimphy, ONLY: klev, klon |
19 |
use SUPHEC_M, only: rg |
use SUPHEC_M, only: rg, rcpd, rcw, rcpv, rd, rv |
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! inputs: |
! inputs: |
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integer, intent(in):: icb(:), inb(:) ! (ncum) |
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integer, intent(in):: icb(:) |
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integer, intent(in):: inb(:) ! (ncum) |
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! first model level above the level of neutral buoyancy of the |
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! parcel (1 <= inb <= nl - 1) |
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real, intent(in):: delt |
real, intent(in):: delt |
30 |
real, intent(in):: t(klon, klev), rr(klon, klev) |
real, intent(in):: t(klon, klev), rr(klon, klev) |
31 |
real, intent(in):: u(klon, klev), v(klon, klev) |
real, intent(in):: u(klon, klev), v(klon, klev) |
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real gz(klon, klev) |
real gz(klon, klev) |
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real p(klon, klev) |
real p(klon, klev) |
34 |
real ph(klon, klev + 1), h(klon, klev), hp(klon, klev) |
real ph(klon, klev + 1), h(klon, klev), hp(klon, klev) |
35 |
real lv(klon, klev), cpn(klon, klev) |
real, intent(in):: lv(:, :) ! (klon, klev) |
36 |
real th(klon, klev) |
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real, intent(in):: cpn(:, :) ! (ncum, nl) |
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! specific heat capacity at constant pressure of humid air, in J K-1 kg-1 |
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real, intent(in):: th(:, :) ! (ncum, nl) |
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real ep(klon, klev), clw(klon, klev) |
real ep(klon, klev), clw(klon, klev) |
42 |
real m(klon, klev) |
real m(klon, klev) |
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real tp(klon, klev) |
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):: mp(:, :) ! (ncum, nl) Mass flux of the |
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! unsaturated downdraft, defined positive downward, in kg m-2 |
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! s-1. M_p in Emanuel (1991 928). |
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real, intent(in):: qp(:, :), up(:, :) ! (klon, klev) |
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real, intent(in):: vp(:, 2:) ! (ncum, 2:nl) |
real, intent(in):: vp(:, 2:) ! (ncum, 2:nl) |
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real, intent(in):: wt(:, :) ! (ncum, nl - 1) |
real, intent(in):: wt(:, :) ! (ncum, nl - 1) |
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real, intent(in):: water(:, :), evap(:, :) ! (ncum, nl) |
real, intent(in):: water(:, :), evap(:, :) ! (ncum, nl) |
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real VPrecip(klon, klev + 1) |
real VPrecip(klon, klev + 1) |
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real ft(klon, klev), fr(klon, klev), fu(klon, klev), fv(klon, klev) |
real ft(klon, klev), fr(klon, klev), fu(klon, klev), fv(klon, klev) |
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real upwd(klon, klev), dnwd(klon, klev) |
real upwd(klon, klev), dnwd(klon, klev) |
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real dnwd0(klon, klev) |
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real ma(klon, klev) |
real ma(klon, klev) |
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real mike(klon, klev) |
real mike(klon, klev) |
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real tls(klon, klev), tps(klon, klev) |
real tls(klon, klev), tps(klon, klev) |
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+ (gz(il, 2) - gz(il, 1)) / cpn(il, 1)) - 0.5 * lvcp(il, 1) & |
+ (gz(il, 2) - gz(il, 1)) / cpn(il, 1)) - 0.5 * lvcp(il, 1) & |
155 |
* sigd * (evap(il, 1) + evap(il, 2)) - 0.009 * rg * sigd & |
* sigd * (evap(il, 1) + evap(il, 2)) - 0.009 * rg * sigd & |
156 |
* mp(il, 2) * t(il, 1) * b(il, 1) * work(il) + 0.01 * sigd & |
* mp(il, 2) * t(il, 1) * b(il, 1) * work(il) + 0.01 * sigd & |
157 |
* wt(il, 1) * (cl - cpd) * water(il, 2) * (t(il, 2) - t(il, 1)) & |
* wt(il, 1) * (rcw - rcpd) * water(il, 2) * (t(il, 2) - t(il, 1)) & |
158 |
* work(il) / cpn(il, 1) |
* work(il) / cpn(il, 1) |
159 |
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160 |
!jyg1 Correction pour mieux conserver l'eau (conformite avec CONVECT4.3) |
! jyg 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 rg, pas evap) |
! (sb: pour l'instant, on ne fait que le chgt concernant rg, pas evap) |
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fr(il, 1) = 0.01 * rg * mp(il, 2) * (rp(il, 2) - rr(il, 1)) & |
fr(il, 1) = 0.01 * rg * mp(il, 2) * (qp(il, 2) - rr(il, 1)) & |
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* work(il) + sigd * 0.5 * (evap(il, 1) + evap(il, 2)) |
* work(il) + sigd * 0.5 * (evap(il, 1) + evap(il, 2)) |
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! + tard : + sigd * evap(il, 1) |
! + tard : + sigd * evap(il, 1) |
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* (mp(il, i + 1) * t(il, i) * b(il, i) - mp(il, i) & |
* (mp(il, i + 1) * t(il, i) * b(il, i) - mp(il, i) & |
240 |
* t(il, i - 1) * cpn(il, i - 1) * cpinv * b(il, i - 1)) & |
* t(il, i - 1) * cpn(il, i - 1) * cpinv * b(il, i - 1)) & |
241 |
* dpinv + 0.01 * rg * dpinv * ment(il, i, i) & |
* dpinv + 0.01 * rg * dpinv * ment(il, i, i) & |
242 |
* (hp(il, i) - h(il, i) + t(il, i) * (cpv - cpd) & |
* (hp(il, i) - h(il, i) + t(il, i) * (rcpv - rcpd) & |
243 |
* (rr(il, i) - qent(il, i, i))) * cpinv + 0.01 * sigd & |
* (rr(il, i) - qent(il, i, i))) * cpinv + 0.01 * sigd & |
244 |
* wt(il, i) * (cl - cpd) * water(il, i + 1) & |
* wt(il, i) * (rcw - rcpd) * water(il, i + 1) & |
245 |
* (t(il, i + 1) - t(il, i)) * dpinv * cpinv |
* (t(il, i + 1) - t(il, i)) * dpinv * cpinv |
246 |
fr(il, i) = 0.01 * rg * dpinv * (amp1(il) * (rr(il, i + 1) & |
fr(il, i) = 0.01 * rg * dpinv * (amp1(il) * (rr(il, i + 1) & |
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- rr(il, i)) - ad(il) * (rr(il, i) - rr(il, i - 1))) |
- rr(il, i)) - ad(il) * (rr(il, i) - rr(il, i - 1))) |
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! conserver l'eau: |
! conserver l'eau: |
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fr(il, i) = fr(il, i) + 0.5 * sigd * (evap(il, i) & |
fr(il, i) = fr(il, i) + 0.5 * sigd * (evap(il, i) & |
304 |
+ evap(il, i + 1)) + 0.01 * rg * (mp(il, i + 1) & |
+ evap(il, i + 1)) + 0.01 * rg * (mp(il, i + 1) & |
305 |
* (rp(il, i + 1) - rr(il, i)) - mp(il, i) * (rp(il, i) & |
* (qp(il, i + 1) - rr(il, i)) - mp(il, i) * (qp(il, i) & |
306 |
- rr(il, i - 1))) * dpinv |
- rr(il, i - 1))) * dpinv |
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fu(il, i) = fu(il, i) + 0.01 * rg * (mp(il, i + 1) & |
fu(il, i) = fu(il, i) + 0.01 * rg * (mp(il, i + 1) & |
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do il = 1, ncum |
do il = 1, ncum |
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ax = 0.1 * ment(il, inb(il), inb(il)) * (hp(il, inb(il)) & |
ax = 0.1 * ment(il, inb(il), inb(il)) * (hp(il, inb(il)) & |
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- h(il, inb(il)) + t(il, inb(il)) * (cpv - cpd) & |
- h(il, inb(il)) + t(il, inb(il)) * (rcpv - rcpd) & |
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* (rr(il, inb(il)) - qent(il, inb(il), inb(il)))) & |
* (rr(il, inb(il)) - qent(il, inb(il), inb(il)))) & |
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/ (cpn(il, inb(il)) * (ph(il, inb(il)) - ph(il, inb(il) + 1))) |
/ (cpn(il, inb(il)) * (ph(il, inb(il)) - ph(il, inb(il) + 1))) |
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ft(il, inb(il)) = ft(il, inb(il)) - ax |
ft(il, inb(il)) = ft(il, inb(il)) - ax |
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do il = 1, ncum |
do il = 1, ncum |
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if (i <= (icb(il) - 1)) then |
if (i <= (icb(il) - 1)) then |
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asum(il) = asum(il) + ft(il, i) * (ph(il, i) - ph(il, i + 1)) |
asum(il) = asum(il) + ft(il, i) * (ph(il, i) - ph(il, i + 1)) |
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bsum(il) = bsum(il) + fr(il, i) * (lv(il, i) + (cl - cpd) & |
bsum(il) = bsum(il) + fr(il, i) * (lv(il, i) + (rcw - rcpd) & |
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* (t(il, i) - t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
* (t(il, i) - t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
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csum(il) = csum(il) + (lv(il, i) + (cl - cpd) * (t(il, i) & |
csum(il) = csum(il) + (lv(il, i) + (rcw - rcpd) * (t(il, i) & |
398 |
- t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
- t(il, 1))) * (ph(il, i) - ph(il, i + 1)) |
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dsum(il) = dsum(il) + t(il, i) * (ph(il, i) - ph(il, i + 1)) & |
dsum(il) = dsum(il) + t(il, i) * (ph(il, i) - ph(il, i + 1)) & |
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/ th(il, i) |
/ th(il, i) |
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do i = 1, nl |
do i = 1, nl |
428 |
do il = 1, ncum |
do il = 1, ncum |
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dnwd0(il, i) = - mp(il, i) |
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enddo |
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enddo |
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do i = nl + 1, klev |
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do il = 1, ncum |
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dnwd0(il, i) = 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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if (i >= icb(il) .and. i <= inb(il)) then |
if (i >= icb(il) .and. i <= inb(il)) then |
430 |
upwd(il, i) = 0.0 |
upwd(il, i) = 0.0 |
431 |
dnwd(il, i) = 0.0 |
dnwd(il, i) = 0.0 |
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do i = 1, klev |
do i = 1, klev |
516 |
DO il = 1, ncum |
DO il = 1, ncum |
517 |
rdcp = (rrd * (1. - rr(il, i)) - rr(il, i) * rrv) & |
rdcp = (rd * (1. - rr(il, i)) - rr(il, i) * rv) & |
518 |
/ (cpd * (1. - rr(il, i)) + rr(il, i) * cpv) |
/ (rcpd * (1. - rr(il, i)) + rr(il, i) * rcpv) |
519 |
tls(il, i) = t(il, i) * (1000.0 / p(il, i))**rdcp |
tls(il, i) = t(il, i) * (1000.0 / p(il, i))**rdcp |
520 |
tps(il, i) = tp(il, i) |
tps(il, i) = tp(il, i) |
521 |
end DO |
end DO |
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do il = 1, ncum |
do il = 1, ncum |
548 |
if (i >= icb(il) .and. i <= (inb(il) - 1) & |
if (i >= icb(il) .and. i <= (inb(il) - 1) & |
549 |
.and. j >= icb(il)) then |
.and. j >= icb(il)) then |
550 |
sax(il, i) = sax(il, i) + rrd * (tvp(il, j) - tv(il, j)) & |
sax(il, i) = sax(il, i) + rd * (tvp(il, j) - tv(il, j)) & |
551 |
* (ph(il, j) - ph(il, j + 1)) / p(il, j) |
* (ph(il, j) - ph(il, j + 1)) / p(il, j) |
552 |
endif |
endif |
553 |
enddo |
enddo |
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566 |
do i = 1, nl |
do i = 1, nl |
567 |
do il = 1, ncum |
do il = 1, ncum |
568 |
if (wa(il, i) > 0.0) siga(il, i) = mac(il, i) / wa(il, i) * rrd & |
if (wa(il, i) > 0.0) siga(il, i) = mac(il, i) / wa(il, i) * rd & |
569 |
* tvp(il, i) / p(il, i) / 100. / delta |
* tvp(il, i) / p(il, i) / 100. / delta |
570 |
siga(il, i) = min(siga(il, i), 1.0) |
siga(il, i) = min(siga(il, i), 1.0) |
571 |
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