1 |
|
module cv_feed_m |
2 |
|
|
3 |
SUBROUTINE cv_feed(len,nd,t,q,qs,p,hm,gz & |
implicit none |
|
,nk,icb,icbmax,iflag,tnk,qnk,gznk,plcl) |
|
|
use cvparam |
|
|
implicit none |
|
|
|
|
|
!================================================================ |
|
|
! Purpose: CONVECTIVE FEED |
|
|
!================================================================ |
|
|
|
|
|
|
|
|
! inputs: |
|
|
integer, intent(in):: len, nd |
|
|
real, intent(in):: t(len,nd) |
|
|
real q(len,nd), qs(len,nd), p(len,nd) |
|
|
real hm(len,nd), gz(len,nd) |
|
|
|
|
|
! outputs: |
|
|
integer iflag(len), nk(len), icb(len), icbmax |
|
|
real tnk(len), qnk(len), gznk(len), plcl(len) |
|
|
|
|
|
! local variables: |
|
|
integer i, k |
|
|
integer ihmin(len) |
|
|
real work(len) |
|
|
real pnk(len), qsnk(len), rh(len), chi(len) |
|
|
|
|
|
!------------------------------------------------------------------- |
|
|
! --- Find level of minimum moist static energy |
|
|
! --- If level of minimum moist static energy coincides with |
|
|
! --- or is lower than minimum allowable parcel origin level, |
|
|
! --- set iflag to 6. |
|
|
!------------------------------------------------------------------- |
|
4 |
|
|
5 |
do 180 i=1,len |
contains |
6 |
|
|
7 |
|
SUBROUTINE cv_feed(len, nd, t, q, qs, p, hm, gz, nk, icb, icbmax, iflag, & |
8 |
|
tnk, qnk, gznk, plcl) |
9 |
|
|
10 |
|
use cv_param |
11 |
|
|
12 |
|
! Purpose: CONVECTIVE FEED |
13 |
|
|
14 |
|
! inputs: |
15 |
|
integer, intent(in):: len, nd |
16 |
|
real, intent(in):: t(len, nd) |
17 |
|
real, intent(in):: q(len, nd), qs(len, nd), p(len, nd) |
18 |
|
real hm(len, nd), gz(len, nd) |
19 |
|
|
20 |
|
! outputs: |
21 |
|
integer iflag(len) |
22 |
|
integer, intent(out):: nk(len), icb(len), icbmax |
23 |
|
real tnk(len), qnk(len), gznk(len), plcl(len) |
24 |
|
|
25 |
|
! local variables: |
26 |
|
integer i, k |
27 |
|
integer ihmin(len) |
28 |
|
real work(len) |
29 |
|
real pnk(len), qsnk(len), rh(len), chi(len) |
30 |
|
|
31 |
|
!------------------------------------------------------------------- |
32 |
|
! --- Find level of minimum moist static energy |
33 |
|
! --- If level of minimum moist static energy coincides with |
34 |
|
! --- or is lower than minimum allowable parcel origin level, |
35 |
|
! --- set iflag to 6. |
36 |
|
!------------------------------------------------------------------- |
37 |
|
|
38 |
|
do i=1, len |
39 |
work(i)=1.0e12 |
work(i)=1.0e12 |
40 |
ihmin(i)=nl |
ihmin(i)=nl |
41 |
180 continue |
end do |
42 |
do 200 k=2,nlp |
do k=2, nlp |
43 |
do 190 i=1,len |
do i=1, len |
44 |
if((hm(i,k).lt.work(i)).and. & |
if ((hm(i, k) < work(i)).and. & |
45 |
(hm(i,k).lt.hm(i,k-1)))then |
(hm(i, k) < hm(i, k-1)))then |
46 |
work(i)=hm(i,k) |
work(i)=hm(i, k) |
47 |
ihmin(i)=k |
ihmin(i)=k |
48 |
endif |
endif |
49 |
190 continue |
end do |
50 |
200 continue |
end do |
51 |
do 210 i=1,len |
do i=1, len |
52 |
ihmin(i)=min(ihmin(i),nlm) |
ihmin(i) = min(ihmin(i), nlm) |
53 |
if(ihmin(i).le.minorig)then |
if (ihmin(i) <= minorig) iflag(i)=6 |
54 |
iflag(i)=6 |
end do |
55 |
endif |
|
56 |
210 continue |
!------------------------------------------------------------------- |
57 |
! |
! --- Find that model level below the level of minimum moist static |
58 |
!------------------------------------------------------------------- |
! --- energy that has the maximum value of moist static energy |
59 |
! --- Find that model level below the level of minimum moist static |
!------------------------------------------------------------------- |
|
! --- energy that has the maximum value of moist static energy |
|
|
!------------------------------------------------------------------- |
|
60 |
|
|
61 |
do 220 i=1,len |
do i=1, len |
62 |
work(i)=hm(i,minorig) |
work(i)=hm(i, minorig) |
63 |
nk(i)=minorig |
nk(i)=minorig |
64 |
220 continue |
end do |
65 |
do 240 k=minorig+1,nl |
do k=minorig+1, nl |
66 |
do 230 i=1,len |
do i=1, len |
67 |
if((hm(i,k).gt.work(i)).and.(k.le.ihmin(i)))then |
if ((hm(i, k) > work(i)).and.(k <= ihmin(i)))then |
68 |
work(i)=hm(i,k) |
work(i)=hm(i, k) |
69 |
nk(i)=k |
nk(i)=k |
70 |
endif |
endif |
71 |
230 continue |
end do |
72 |
240 continue |
end do |
73 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
74 |
! --- Check whether parcel level temperature and specific humidity |
! --- Check whether parcel level temperature and specific humidity |
75 |
! --- are reasonable |
! --- are reasonable |
76 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
77 |
do 250 i=1,len |
do i=1, len |
78 |
if(((t(i,nk(i)).lt.250.0).or. & |
if (((t(i, nk(i)) < 250.0).or. & |
79 |
(q(i,nk(i)).le.0.0).or. & |
(q(i, nk(i)) <= 0.0).or. & |
80 |
(p(i,ihmin(i)).lt.400.0)).and. & |
(p(i, ihmin(i)) < 400.0)).and. & |
81 |
(iflag(i).eq.0))iflag(i)=7 |
(iflag(i) == 0))iflag(i)=7 |
82 |
250 continue |
end do |
83 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
84 |
! --- Calculate lifted condensation level of air at parcel origin level |
! --- Calculate lifted condensation level of air at parcel origin level |
85 |
! --- (Within 0.2% of formula of Bolton, MON. WEA. REV.,1980) |
! --- (Within 0.2% of formula of Bolton, MON. WEA. REV., 1980) |
86 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
87 |
do 260 i=1,len |
do i=1, len |
88 |
tnk(i)=t(i,nk(i)) |
tnk(i)=t(i, nk(i)) |
89 |
qnk(i)=q(i,nk(i)) |
qnk(i)=q(i, nk(i)) |
90 |
gznk(i)=gz(i,nk(i)) |
gznk(i)=gz(i, nk(i)) |
91 |
pnk(i)=p(i,nk(i)) |
pnk(i)=p(i, nk(i)) |
92 |
qsnk(i)=qs(i,nk(i)) |
qsnk(i)=qs(i, nk(i)) |
93 |
! |
|
94 |
rh(i)=qnk(i)/qsnk(i) |
rh(i)=qnk(i)/qsnk(i) |
95 |
rh(i)=min(1.0,rh(i)) |
rh(i)=min(1.0, rh(i)) |
96 |
chi(i)=tnk(i)/(1669.0-122.0*rh(i)-tnk(i)) |
chi(i)=tnk(i)/(1669.0-122.0*rh(i)-tnk(i)) |
97 |
plcl(i)=pnk(i)*(rh(i)**chi(i)) |
plcl(i)=pnk(i)*(rh(i)**chi(i)) |
98 |
if(((plcl(i).lt.200.0).or.(plcl(i).ge.2000.0)) & |
if (((plcl(i) < 200.0).or.(plcl(i) >= 2000.0)) & |
99 |
.and.(iflag(i).eq.0))iflag(i)=8 |
.and.(iflag(i) == 0))iflag(i)=8 |
100 |
260 continue |
end do |
101 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
102 |
! --- Calculate first level above lcl (=icb) |
! --- Calculate first level above lcl (=icb) |
103 |
!------------------------------------------------------------------- |
!------------------------------------------------------------------- |
104 |
do 270 i=1,len |
do i=1, len |
105 |
icb(i)=nlm |
icb(i)=nlm |
106 |
270 continue |
end do |
107 |
! |
|
108 |
do 290 k=minorig,nl |
do k=minorig, nl |
109 |
do 280 i=1,len |
do i=1, len |
110 |
if((k.ge.(nk(i)+1)).and.(p(i,k).lt.plcl(i))) & |
if ((k >= (nk(i)+1)).and.(p(i, k) < plcl(i))) & |
111 |
icb(i)=min(icb(i),k) |
icb(i)=min(icb(i), k) |
112 |
280 continue |
end do |
113 |
290 continue |
end do |
114 |
! |
|
115 |
do 300 i=1,len |
do i=1, len |
116 |
if((icb(i).ge.nlm).and.(iflag(i).eq.0))iflag(i)=9 |
if ((icb(i) >= nlm).and.(iflag(i) == 0))iflag(i)=9 |
117 |
300 continue |
end do |
118 |
! |
|
119 |
! Compute icbmax. |
! Compute icbmax. |
120 |
! |
|
121 |
icbmax=2 |
icbmax=2 |
122 |
do 310 i=1,len |
do i=1, len |
123 |
icbmax=max(icbmax,icb(i)) |
icbmax=max(icbmax, icb(i)) |
124 |
310 continue |
end do |
125 |
|
|
126 |
|
end SUBROUTINE cv_feed |
127 |
|
|
128 |
return |
end module cv_feed_m |
|
end |
|