source: trunk/LMDZ.MARS/libf/phymars/drag_noro_mod.F90 @ 3118

Last change on this file since 3118 was 2642, checked in by emillour, 3 years ago

Mars GCM:
Switching orographic GW routines to F90 and adding comments.
JL

File size: 7.2 KB
Line 
1MODULE drag_noro_mod
2     
3IMPLICIT NONE
4     
5CONTAINS
6     
7      SUBROUTINE drag_noro (ngrid,nlayer,ptimestep,pplay,pplev,pvar, psig, pgam, pthe, &
8                 kgwd,kgwdim,kdx,ktest,t, u, v, &
9                 ! output
10                 pulow, pvlow, pustr, pvstr, d_t, d_u, d_v)
11
12!--------------------------------------------------------------------------------
13! MODULE contains DRAG_NORO SUBROUNTINE for sub-grid scale orographic sheme.
14!  1) Initialization the variables
15!  2) Overturn the levels and computes geopotential height
16!  3) Call the and ORODRAG subroutine to updates the tendencies
17!  4) Overturn back to the normal level of the tendencies and transfer it into
18!     increments and sum the oro-gw stress.
19! the scheme has been called.         
20! Z.X. Li + F.Lott (LMD/CNRS/ENS)  1995-02-01
21!
22! UPDATE: J.Liu   03/03/2022      Translate the code into .F90. The name of the
23!                                 variables are uniformed. Comments are made.
24!                                 Unused variables are deleted.
25!-------------------------------------------------------------------------------
26 
27      use dimradmars_mod, only:  ndomainsz
28      USE orodrag_mod, ONLY: orodrag
29      USE comcstfi_h, ONLY: g, r
30     
31      IMPLICIT none
32     
33      ! 0. DECLARATIONS:
34     
35      ! 0.1 Input:
36      INTEGER, intent(in):: ngrid                       ! Number of atmospheric columns [only nd]
37      INTEGER, intent(in):: nlayer                      ! Number of atmospheric layers
38      REAL, intent(in):: ptimestep                      ! Time step of the Physics(s)
39      real, intent(in):: pplay(ndomainsz,nlayer)        ! Pressure at full levels(Pa)
40      real, intent(in):: pplev(ndomainsz,nlayer+1)      ! Pressure at 1/2 levels(Pa)
41      REAL, intent(in):: pvar(ndomainsz)                ! sub-grid scale standard deviation
42      REAL, intent(in):: psig(ndomainsz)                ! sub-grid scale standard slope
43      REAL, intent(in):: pgam(ndomainsz)                ! sub-grid scale standard anisotropy
44      REAL, intent(in):: pthe(ndomainsz)                ! sub-grid scale principal axes angle
45      REAL, intent(in):: u(ndomainsz,nlayer)            ! Zonal wind at full levels(m/s)
46      REAL, intent(in):: v(ndomainsz,nlayer)            ! Meridional wind at full levels(m/s)
47      REAL, intent(in):: t(ndomainsz,nlayer)            ! Temperature at full levels(m/s)
48      INTEGER, intent(in):: kgwd                        ! Number of points at which the scheme is called
49      INTEGER, intent(in):: kgwdim                      ! kgwdim=MAX(1,kgwd)
50      INTEGER, intent(in):: kdx(ndomainsz)              ! Points at which to call the scheme
51      INTEGER, intent(in):: ktest(ndomainsz)            ! Map of calling points
52     
53      ! 0.2 Output:
54      REAL, intent(out):: pulow(ndomainsz)              ! Low level zonal wind
55      REAL, intent(out):: pvlow(ndomainsz)              ! Low level meridional wind
56      REAL, intent(out):: pustr(ndomainsz)              ! Low level zonal stress     
57      REAL, intent(out):: pvstr(ndomainsz)              ! Low level meridional stress 
58      REAL, intent(out):: d_t(ndomainsz,nlayer)         ! Temperature increment(K) due to orographic gravity waves     
59      REAL, intent(out):: d_u(ndomainsz,nlayer)         ! Zonal increment(m/s) due to orographic gravity waves
60      REAL, intent(out):: d_v(ndomainsz,nlayer)         ! Meridional increment(m/s) due to orographic gravity waves
61     
62      ! 0.3 Variables locales:
63      INTEGER i, k
64      REAL inv_pplev(ndomainsz,nlayer+1)                ! Inversed (by inverse the pplev pressure) pressure at 1/2 levels
65      REAL inv_pplay(ndomainsz,nlayer)                  ! Inversed (by inverse the pplay pressure) pressure at full levels
66      REAL zgeom(ndomainsz,nlayer)                      ! Geopotetial height (Inversed ??)
67      REAL inv_pt(ndomainsz,nlayer)                     ! Inversed (by inverse the t) temperature (K) at full levels
68      REAL inv_pu(ndomainsz,nlayer)                     ! Inversed (by inverse the u) zonal wind (m/s) at full levels
69      REAL inv_pv(ndomainsz,nlayer)                     ! Inversed (by inverse the v) meridional wind (m/s) at full levels
70      REAL pdtdt(ndomainsz,nlayer)                      ! Temperature tendency outputs from main routine ORODRAG
71      REAL pdudt(ndomainsz,nlayer)                      ! Zonal winds tendency outputs from main routine ORODRAG
72      REAL pdvdt(ndomainsz,nlayer)                      ! Meridional winds tendency outputs from main routine ORODRAG
73     
74!-----------------------------------------------------------------------------------------------------------------------
75!  1. INITIALISATIONS
76!-----------------------------------------------------------------------------------------------------------------------
77      ! 1.1 Initialize the input/output variables (for security purpose)
78      DO i = 1,ngrid
79         pulow(i) = 0.0
80         pvlow(i) = 0.0
81         pustr(i) = 0.0
82         pvstr(i) = 0.0
83      ENDDO
84     
85      DO k = 1, nlayer
86        DO i = 1, ngrid
87         d_t(i,k) = 0.0
88         d_u(i,k) = 0.0
89         d_v(i,k) = 0.0
90         pdudt(i,k)=0.0
91         pdvdt(i,k)=0.0
92         pdtdt(i,k)=0.0
93        ENDDO
94      ENDDO
95     
96      ! 1.2 Prepare the ininv_put varibales (Attention: The order of vertical levels increases from top to bottom )
97      ! Here the levels are overturned, that is, the surface becomes to the top and the top becomes to the surface
98      ! and so forth
99      DO k = 1, nlayer
100        DO i = 1, ngrid
101         inv_pt(i,k) = t(i,nlayer-k+1)
102         inv_pu(i,k) = u(i,nlayer-k+1)
103         inv_pv(i,k) = v(i,nlayer-k+1)
104         inv_pplay(i,k) = pplay(i,nlayer-k+1)
105         inv_pplev(i,k) = pplev(i,nlayer+1-k+1)
106        ENDDO
107      endDO
108           
109      DO i = 1, ngrid
110         inv_pplev(i,nlayer+1) = pplev(i,1)
111      ENDDO
112     
113      !calculate g*dz by R*T*[LN(P(z)/P(z+dz))]
114      DO i = 1, ngrid
115         zgeom(i,nlayer) = r * inv_pt(i,nlayer)* LOG(inv_pplev(i,nlayer+1)/inv_pplay(i,nlayer))
116      ENDDO
117     
118      ! sum g*dz from surface to top to get geopotential height
119      DO k = nlayer-1, 1, -1
120        DO i = 1, ngrid
121           zgeom(i,k) = zgeom(i,k+1) + r * (inv_pt(i,k)+inv_pt(i,k+1))/2.0 * LOG(inv_pplay(i,k+1)/inv_pplay(i,k))
122        ENDDO
123      endDO
124     
125!-----------------------------------------------------------------------------------------------------------------------
126!  2. CALL the Main Rountine OORDRAG
127!-----------------------------------------------------------------------------------------------------------------------
128      ! 2.1 call the main rountine to get the tendencies   
129      CALL ORODRAG(ngrid,nlayer,kgwd,kgwdim,kdx,ktest,ptimestep,inv_pplev,inv_pplay,zgeom,&
130           inv_pt, inv_pu, inv_pv, pvar, psig, pgam, pthe,                                &
131           ! output:
132           pulow,pvlow,pdudt,pdvdt,pdtdt)
133                 
134      ! 2.2 Transfer tendency into increment by multiply the physical time steps
135      !     maybe in the future here cancel multiply the ptimestep thus it will not divide ptimestep again in the main rountine
136      !     calldrag_noro_mod.F90
137      DO k = 1, nlayer
138        DO i = 1, ngrid
139             d_u(i,nlayer+1-k) = ptimestep*pdudt(i,k)
140             d_v(i,nlayer+1-k) = ptimestep*pdvdt(i,k)
141             d_t(i,nlayer+1-k) = ptimestep*pdtdt(i,k)
142             pustr(i)          = pustr(i)+g*pdudt(i,k)*(inv_pplev(i,k+1)-inv_pplev(i,k))
143             pvstr(i)          = pvstr(i)+g*pdvdt(i,k)*(inv_pplev(i,k+1)-inv_pplev(i,k))
144        ENDDO
145      ENDDO
146
147      END SUBROUTINE drag_noro
148     
149END MODULE drag_noro_mod
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