1 | ! $Header$ |
---|
2 | |
---|
3 | SUBROUTINE tlift43(p, t, q, qs, gz, icb, nk, tvp, tpk, clw, nd, nl, kk) |
---|
4 | USE lmdz_yomcst |
---|
5 | |
---|
6 | IMPLICIT NONE |
---|
7 | REAL gz(nd), tpk(nd), clw(nd), p(nd) |
---|
8 | REAL t(nd), q(nd), qs(nd), tvp(nd), lv0 |
---|
9 | INTEGER icb, nk, nd, nl, kk |
---|
10 | REAL cpd, cpv, cl, g, rowl, gravity, cpvmcl, eps, epsi |
---|
11 | REAL ah0, cpp, cpinv, tg, qg, alv, s, ahg, tc, denom, es |
---|
12 | INTEGER i, nst, nsb, j |
---|
13 | ! *** ASSIGN VALUES OF THERMODYNAMIC CONSTANTS *** |
---|
14 | |
---|
15 | ! -- sb: |
---|
16 | ! CPD=1005.7 |
---|
17 | ! CPV=1870.0 |
---|
18 | ! CL=4190.0 |
---|
19 | ! RV=461.5 |
---|
20 | ! RD=287.04 |
---|
21 | ! LV0=2.501E6 |
---|
22 | ! G=9.8 |
---|
23 | ! ROWL=1000.0 |
---|
24 | ! ajouts: |
---|
25 | |
---|
26 | cpd = rcpd |
---|
27 | cpv = rcpv |
---|
28 | cl = rcw |
---|
29 | lv0 = rlvtt |
---|
30 | g = rg |
---|
31 | rowl = ratm / 100. |
---|
32 | gravity = rg !sb: Pr que gravite ne devienne pas humidite! |
---|
33 | ! sb -- |
---|
34 | |
---|
35 | cpvmcl = cl - cpv |
---|
36 | eps = rd / rv |
---|
37 | epsi = 1. / eps |
---|
38 | |
---|
39 | ! *** CALCULATE CERTAIN PARCEL QUANTITIES, INCLUDING STATIC ENERGY *** |
---|
40 | |
---|
41 | ah0 = (cpd * (1. - q(nk)) + cl * q(nk)) * t(nk) + q(nk) * (lv0 - cpvmcl * (t(nk) - 273.15)) + & |
---|
42 | gz(nk) |
---|
43 | cpp = cpd * (1. - q(nk)) + q(nk) * cpv |
---|
44 | cpinv = 1. / cpp |
---|
45 | |
---|
46 | IF (kk==1) THEN |
---|
47 | |
---|
48 | ! *** CALCULATE LIFTED PARCEL QUANTITIES BELOW CLOUD BASE *** |
---|
49 | |
---|
50 | DO i = 1, icb - 1 |
---|
51 | clw(i) = 0.0 |
---|
52 | END DO |
---|
53 | DO i = nk, icb - 1 |
---|
54 | tpk(i) = t(nk) - (gz(i) - gz(nk)) * cpinv |
---|
55 | tvp(i) = tpk(i) * (1. + q(nk) * epsi) |
---|
56 | END DO |
---|
57 | END IF |
---|
58 | |
---|
59 | ! *** FIND LIFTED PARCEL QUANTITIES ABOVE CLOUD BASE *** |
---|
60 | |
---|
61 | nst = icb |
---|
62 | nsb = icb |
---|
63 | IF (kk==2) THEN |
---|
64 | nst = nl |
---|
65 | nsb = icb + 1 |
---|
66 | END IF |
---|
67 | DO i = nsb, nst |
---|
68 | tg = t(i) |
---|
69 | qg = qs(i) |
---|
70 | alv = lv0 - cpvmcl * (t(i) - 273.15) |
---|
71 | DO j = 1, 2 |
---|
72 | s = cpd + alv * alv * qg / (rv * t(i) * t(i)) |
---|
73 | s = 1. / s |
---|
74 | ahg = cpd * tg + (cl - cpd) * q(nk) * t(i) + alv * qg + gz(i) |
---|
75 | tg = tg + s * (ah0 - ahg) |
---|
76 | tg = max(tg, 35.0) |
---|
77 | tc = tg - 273.15 |
---|
78 | denom = 243.5 + tc |
---|
79 | IF (tc>=0.0) THEN |
---|
80 | es = 6.112 * exp(17.67 * tc / denom) |
---|
81 | ELSE |
---|
82 | es = exp(23.33086 - 6111.72784 / tg + 0.15215 * log(tg)) |
---|
83 | END IF |
---|
84 | qg = eps * es / (p(i) - es * (1. - eps)) |
---|
85 | END DO |
---|
86 | alv = lv0 - cpvmcl * (t(i) - 273.15) |
---|
87 | tpk(i) = (ah0 - (cl - cpd) * q(nk) * t(i) - gz(i) - alv * qg) / cpd |
---|
88 | clw(i) = q(nk) - qg |
---|
89 | clw(i) = max(0.0, clw(i)) |
---|
90 | rg = qg / (1. - q(nk)) |
---|
91 | tvp(i) = tpk(i) * (1. + rg * epsi) |
---|
92 | END DO |
---|
93 | |
---|
94 | ! -- sb: |
---|
95 | rg = gravity ! RG redevient la gravite de YOMCST (sb) |
---|
96 | ! sb -- |
---|
97 | |
---|
98 | END SUBROUTINE tlift43 |
---|
99 | |
---|