source: trunk/LMDZ.MARS/libf/phymars/dyn1d/testphys1d.F @ 2090

Last change on this file since 2090 was 2079, checked in by mvals, 6 years ago

Mars GCM:

  • Update of rocketduststorm_mod.F90 :

We want to separate both parametrizations related to the formation of the detached dust layers. Therefore, rocketduststorm_mod.F90 now only comprises the rocket dust storm scheme, whereas it contained
also before the calculation of the vertical velocity induced by the presence of the sub-grid scale topography. This latter part is under development and will be integrated as a fully independant
parametrization: the aim is to simulate the entrainment of dust by slope winds, from the boundary layer up to the top of the sub-grid scale topography.

  • Addition of initial surface parameters "summit" and "base" to prepare the previously described slope wind parametrization

MV

File size: 29.9 KB
Line 
1
2      PROGRAM testphys1d
3! to use  'getin'
4      USE ioipsl_getincom, only: getin
5      use dimphy, only : init_dimphy
6      use mod_grid_phy_lmdz, only : regular_lonlat
7      use infotrac, only: nqtot, tname
8      use comsoil_h, only: volcapa, layer, mlayer, inertiedat, nsoilmx
9      use comgeomfi_h, only: sinlat, ini_fillgeom
10      use surfdat_h, only: albedodat, z0_default, emissiv, emisice,
11     &                     albedice, iceradius, dtemisice, z0,
12     &                     zmea, zstd, zsig, zgam, zthe, phisfi,
13     &                     watercaptag, hmons, summit, base
14      use slope_mod, only: theta_sl, psi_sl
15      use phyredem, only: physdem0,physdem1
16      use geometry_mod, only: init_geometry
17      use planete_h, only: year_day, periheli, aphelie, peri_day,
18     &                     obliquit, emin_turb, lmixmin
19      use comcstfi_h, only: pi, rad, omeg, g, mugaz, rcp, r, cpp
20      use time_phylmdz_mod, only: daysec, dtphys, day_step,
21     &                            ecritphy, iphysiq
22      use dimradmars_mod, only: tauscaling,tauvis,totcloudfrac
23      use co2cloud_mod, only: mem_Mccn_co2, mem_Mh2o_co2,
24     &                        mem_Nccn_co2
25      USE comvert_mod, ONLY: ap,bp,aps,bps,pa,preff,sig,
26     &                       presnivs,pseudoalt,scaleheight
27      USE vertical_layers_mod, ONLY: init_vertical_layers
28      USE logic_mod, ONLY: hybrid
29      use physics_distribution_mod, only: init_physics_distribution
30      use regular_lonlat_mod, only: init_regular_lonlat
31      use mod_interface_dyn_phys, only: init_interface_dyn_phys
32      USE phys_state_var_init_mod, ONLY: phys_state_var_init
33      USE physiq_mod, ONLY: physiq
34      IMPLICIT NONE
35
36c=======================================================================
37c   subject:
38c   --------
39c   PROGRAM useful to run physical part of the martian GCM in a 1D column
40c       
41c Can be compiled with a command like (e.g. for 25 layers)
42c  "makegcm -p mars -d 25 testphys1d"
43c It requires the files "testphys1d.def" "callphys.def"
44c   and a 'run.def' file (containing a "INCLUDEDEF=callphys.def" line)
45c      and a file describing the sigma layers (e.g. "z2sig.def")
46c
47c   author: Frederic Hourdin, R.Fournier,F.Forget
48c   -------
49c   
50c   update: 12/06/2003 including chemistry (S. Lebonnois)
51c                            and water ice (F. Montmessin)
52c
53c=======================================================================
54
55      include "dimensions.h"
56      integer, parameter :: ngrid = 1 !(2+(jjm-1)*iim - 1/jjm)
57      integer, parameter :: nlayer = llm
58!#include "dimradmars.h"
59!#include "comgeomfi.h"
60!#include "surfdat.h"
61!#include "slope.h"
62!#include "comsoil.h"
63!#include "comdiurn.h"
64      include "callkeys.h"
65!#include "comsaison.h"
66!#include "control.h"
67      include "netcdf.inc"
68      include "comg1d.h"
69!#include "advtrac.h"
70
71c --------------------------------------------------------------
72c  Declarations
73c --------------------------------------------------------------
74c
75      INTEGER unitstart      ! unite d'ecriture de "startfi"
76      INTEGER nlevel,nsoil,ndt
77      INTEGER ilayer,ilevel,isoil,idt,iq
78      LOGICAl firstcall,lastcall
79c
80      real,parameter :: odpref=610. ! DOD reference pressure (Pa)
81c
82      INTEGER day0          ! date initial (sol ; =0 a Ls=0)
83      REAL day           ! date durant le run
84      REAL time             ! time (0<time<1 ; time=0.5 a midi)
85      REAL play(nlayer)   ! Pressure at the middle of the layers (Pa)
86      REAL plev(nlayer+1) ! intermediate pressure levels (pa)
87      REAL psurf,tsurf(1)     
88      REAL u(nlayer),v(nlayer)  ! zonal, meridional wind
89      REAL gru,grv   ! prescribed "geostrophic" background wind
90      REAL temp(nlayer)   ! temperature at the middle of the layers
91      REAL,ALLOCATABLE :: q(:,:) ! tracer mixing ratio (e.g. kg/kg)
92      REAL,ALLOCATABLE :: qsurf(:) ! tracer surface budget (e.g. kg.m-2)
93      REAL tsoil(nsoilmx)   ! subsurface soik temperature (K)
94      REAL co2ice(1)        ! co2ice layer (kg.m-2)
95      REAL emis(1)          ! surface layer
96      REAL albedo(1,1)      ! surface albedo
97      REAL :: wstar(1)=0.    ! Thermals vertical velocity
98      REAL q2(nlayer+1)   ! Turbulent Kinetic Energy
99      REAL zlay(nlayer)   ! altitude estimee dans les couches (km)
100
101c    Physical and dynamical tandencies (e.g.  m.s-2, K/s, Pa/s)
102      REAL du(nlayer),dv(nlayer),dtemp(nlayer)
103      REAL dudyn(nlayer),dvdyn(nlayer),dtempdyn(nlayer)
104      REAL dpsurf(1)   
105      REAL,ALLOCATABLE :: dq(:,:)
106      REAL,ALLOCATABLE :: dqdyn(:,:)
107
108c   Various intermediate variables
109      INTEGER thermo
110      REAL zls
111      REAL phi(nlayer),h(nlayer),s(nlayer)
112      REAL pks, ptif, w(nlayer)
113      REAL qtotinit,qtot
114      real,allocatable :: mqtot(:)
115      INTEGER ierr, aslun
116      REAL tmp1(0:nlayer),tmp2(0:nlayer)
117      integer :: nq=1 ! number of tracers
118      real :: latitude(1), longitude(1), cell_area(1)
119
120      character*2 str2
121      character (len=7) :: str7
122      character(len=44) :: txt
123
124c=======================================================================
125
126c=======================================================================
127c INITIALISATION
128c=======================================================================
129! initialize "serial/parallel" related stuff
130!      CALL init_phys_lmdz(iim,jjp1,llm,1,(/(jjm-1)*iim+2/))
131!      CALL init_phys_lmdz(1,1,llm,1,(/1/))
132!      call initcomgeomphy
133
134c ------------------------------------------------------
135c  Prescribed constants to be set here
136c ------------------------------------------------------
137
138      pi=2.E+0*asin(1.E+0)
139
140c     Mars planetary constants
141c     ----------------------------
142      rad=3397200.               ! mars radius (m)  ~3397200 m
143      daysec=88775.              ! length of a sol (s)  ~88775 s
144      omeg=4.*asin(1.)/(daysec)  ! rotation rate (rad.s-1)
145      g=3.72                     ! gravity (m.s-2) ~3.72 
146      mugaz=43.49                ! atmosphere mola mass (g.mol-1) ~43.49
147      rcp=.256793                ! = r/cp  ~0.256793
148      r= 8.314511E+0 *1000.E+0/mugaz
149      cpp= r/rcp
150      year_day = 669             ! lenght of year (sols) ~668.6
151      periheli = 206.66          ! minimum sun-mars distance (Mkm) ~206.66
152      aphelie = 249.22           ! maximum sun-mars distance (Mkm) ~249.22
153      peri_day =  485.           ! perihelion date (sols since N. Spring)
154      obliquit = 25.2            ! Obliquity (deg) ~25.2         
155 
156c     Planetary Boundary Layer and Turbulence parameters
157c     --------------------------------------------------
158      z0_default =  1.e-2        ! surface roughness (m) ~0.01
159      emin_turb = 1.e-6          ! minimal turbulent energy ~1.e-8
160      lmixmin = 30               ! mixing length ~100
161 
162c     cap properties and surface emissivities
163c     ----------------------------------------------------
164      emissiv= 0.95              ! Bare ground emissivity ~.95
165      emisice(1)=0.95            ! Northern cap emissivity
166      emisice(2)=0.95            ! Southern cap emisssivity
167      albedice(1)=0.5            ! Northern cap albedo
168      albedice(2)=0.5            ! Southern cap albedo
169      iceradius(1) = 100.e-6     ! mean scat radius of CO2 snow (north)
170      iceradius(2) = 100.e-6     ! mean scat radius of CO2 snow (south)
171      dtemisice(1) = 2.          ! time scale for snow metamorphism (north)
172      dtemisice(2) = 2.          ! time scale for snow metamorphism (south
173
174c     mesh surface (not a very usefull quantity in 1D)
175c     ----------------------------------------------------
176      cell_area(1)=1.E+0
177     
178c ------------------------------------------------------
179c  Loading run parameters from "run.def" file
180c ------------------------------------------------------
181
182
183! check if 'run.def' file is around (otherwise reading parameters
184! from callphys.def via getin() routine won't work.
185      open(99,file='run.def',status='old',form='formatted',
186     &     iostat=ierr)
187      if (ierr.ne.0) then
188        write(*,*) 'Cannot find required file "run.def"'
189        write(*,*) '  (which should contain some input parameters'
190        write(*,*) '   along with the following line:'
191        write(*,*) '   INCLUDEDEF=callphys.def'
192        write(*,*) '   )'
193        write(*,*) ' ... might as well stop here ...'
194        stop
195      else
196        close(99)
197      endif
198
199! check if we are going to run with or without tracers
200      write(*,*) "Run with or without tracer transport ?"
201      tracer=.false. ! default value
202      call getin("tracer",tracer)
203      write(*,*) " tracer = ",tracer
204
205! while we're at it, check if there is a 'traceur.def' file
206! and process it.
207      if (tracer) then
208      ! load tracer names from file 'traceur.def'
209        open(90,file='traceur.def',status='old',form='formatted',
210     &       iostat=ierr)
211        if (ierr.ne.0) then
212          write(*,*) 'Cannot find required file "traceur.def"'
213          write(*,*) ' If you want to run with tracers, I need it'
214          write(*,*) ' ... might as well stop here ...'
215          stop
216        else
217          write(*,*) "testphys1d: Reading file traceur.def"
218          ! read number of tracers:
219          read(90,*,iostat=ierr) nq
220          nqtot=nq ! set value of nqtot (in infotrac module) as nq
221          if (ierr.ne.0) then
222            write(*,*) "testphys1d: error reading number of tracers"
223            write(*,*) "   (first line of traceur.def) "
224            stop
225          endif
226        endif
227        ! allocate arrays:
228        allocate(tname(nq))
229        allocate(q(nlayer,nq))
230        allocate(qsurf(nq))
231        allocate(dq(nlayer,nq))
232        allocate(dqdyn(nlayer,nq))
233        allocate(mqtot(nq))
234       
235        ! read tracer names from file traceur.def
236        do iq=1,nq
237          read(90,*,iostat=ierr) tname(iq)
238          if (ierr.ne.0) then
239            write(*,*) 'testphys1d: error reading tracer names...'
240            stop
241          endif
242        enddo
243        close(90)
244
245        ! initialize tracers here:
246        write(*,*) "testphys1d: initializing tracers"
247        q(:,:)=0 ! default, set everything to zero
248        qsurf(:)=0
249        ! "smarter" initialization of some tracers
250        ! (get values from "profile_*" files, if these are available)
251        do iq=1,nq
252          txt=""
253          write(txt,"(a)") tname(iq)
254          write(*,*)"  tracer:",trim(txt)
255          ! CO2
256          if (txt.eq."co2") then
257            q(:,iq)=0.95   ! kg /kg of atmosphere
258            qsurf(iq)=0. ! kg/m2 (not used for CO2)
259            ! even better, look for a "profile_co2" input file
260            open(91,file='profile_co2',status='old',
261     &       form='formatted',iostat=ierr)
262            if (ierr.eq.0) then
263              read(91,*) qsurf(iq)
264              do ilayer=1,nlayer
265                read(91,*) q(ilayer,iq)
266              enddo
267            endif
268            close(91)
269          endif ! of if (txt.eq."co2")
270          ! Allow for an initial profile of argon
271          ! Can also be used to introduce a decaying tracer
272          ! in the 1D (TBD) to study thermals
273          if (txt.eq."ar") then
274            !look for a "profile_ar" input file
275            open(91,file='profile_ar',status='old',
276     &       form='formatted',iostat=ierr)
277            if (ierr.eq.0) then
278              read(91,*) qsurf(iq)
279              do ilayer=1,nlayer
280                read(91,*) q(ilayer,iq)
281              enddo
282            else
283              write(*,*) "No profile_ar file!"
284            endif
285            close(91)
286          endif ! of if (txt.eq."ar")
287
288          ! WATER VAPOUR
289          if (txt.eq."h2o_vap") then
290            !look for a "profile_h2o_vap" input file
291            open(91,file='profile_h2o_vap',status='old',
292     &       form='formatted',iostat=ierr)
293            if (ierr.eq.0) then
294              read(91,*) qsurf(iq)
295              do ilayer=1,nlayer
296                read(91,*) q(ilayer,iq)
297              enddo
298            else
299              write(*,*) "No profile_h2o_vap file!"
300            endif
301            close(91)
302          endif ! of if (txt.eq."h2o_ice")
303          ! WATER ICE
304          if (txt.eq."h2o_ice") then
305            !look for a "profile_h2o_vap" input file
306            open(91,file='profile_h2o_ice',status='old',
307     &       form='formatted',iostat=ierr)
308            if (ierr.eq.0) then
309              read(91,*) qsurf(iq)
310              do ilayer=1,nlayer
311                read(91,*) q(ilayer,iq)
312              enddo
313            else
314              write(*,*) "No profile_h2o_ice file!"
315            endif
316            close(91)
317          endif ! of if (txt.eq."h2o_ice")
318          ! DUST
319          !if (txt(1:4).eq."dust") then
320          !  q(:,iq)=0.4    ! kg/kg of atmosphere
321          !  qsurf(iq)=100 ! kg/m2
322          !endif
323          ! DUST MMR
324          if (txt.eq."dust_mass") then
325            !look for a "profile_dust_mass" input file
326            open(91,file='profile_dust_mass',status='old',
327     &       form='formatted',iostat=ierr)
328            if (ierr.eq.0) then
329              read(91,*) qsurf(iq)
330              do ilayer=1,nlayer
331                read(91,*) q(ilayer,iq)
332!                write(*,*) "l=",ilayer," q(ilayer,iq)=",q(ilayer,iq)
333              enddo
334            else
335              write(*,*) "No profile_dust_mass file!"
336            endif
337            close(91)
338          endif ! of if (txt.eq."dust_mass")
339          ! DUST NUMBER
340          if (txt.eq."dust_number") then
341            !look for a "profile_dust_number" input file
342            open(91,file='profile_dust_number',status='old',
343     &       form='formatted',iostat=ierr)
344            if (ierr.eq.0) then
345              read(91,*) qsurf(iq)
346              do ilayer=1,nlayer
347                read(91,*) q(ilayer,iq)
348              enddo
349            else
350              write(*,*) "No profile_dust_number file!"
351            endif
352            close(91)
353          endif ! of if (txt.eq."dust_number")
354          ! NB: some more initializations (chemistry) is done later
355          ! CCN MASS
356          if (txt.eq."ccn_mass") then
357            !look for a "profile_ccn_mass" input file
358            open(91,file='profile_ccn_mass',status='old',
359     &       form='formatted',iostat=ierr)
360            if (ierr.eq.0) then
361              read(91,*) qsurf(iq)
362              do ilayer=1,nlayer
363                read(91,*) q(ilayer,iq)
364              enddo
365            else
366              write(*,*) "No profile_ccn_mass file!"
367            endif
368            close(91)
369          endif ! of if (txt.eq."ccn_mass")
370          ! CCN NUMBER
371          if (txt.eq."ccn_number") then
372            !look for a "profile_ccn_number" input file
373            open(91,file='profile_ccn_number',status='old',
374     &       form='formatted',iostat=ierr)
375            if (ierr.eq.0) then
376              read(91,*) qsurf(iq)
377              do ilayer=1,nlayer
378                read(91,*) q(ilayer,iq)
379              enddo
380            else
381              write(*,*) "No profile_ccn_number file!"
382            endif
383            close(91)
384          endif ! of if (txt.eq."ccn_number")
385        enddo ! of do iq=1,nq
386
387      else
388      ! we still need to set (dummy) tracer number and names for physdem1
389        nq=1
390        nqtot=nq ! set value of nqtot (in infotrac module) as nq
391        ! allocate arrays:
392        allocate(tname(nq))
393        allocate(q(nlayer,nq))
394        allocate(qsurf(nq))
395        allocate(dq(nlayer,nq))
396        allocate(dqdyn(nlayer,nq))
397        allocate(mqtot(nq))
398        do iq=1,nq
399          write(str7,'(a1,i2.2)')'t',iq
400          tname(iq)=str7
401        enddo
402      ! and just to be clean, also initialize tracers to zero for physdem1
403        q(:,:)=0
404        qsurf(:)=0     
405      endif ! of if (tracer)
406     
407      !write(*,*) "testphys1d q", q(1,:)
408      !write(*,*) "testphys1d qsurf", qsurf
409
410c  Date and local time at beginning of run
411c  ---------------------------------------
412c    Date (in sols since spring solstice) at beginning of run
413      day0 = 0 ! default value for day0
414      write(*,*) 'Initial date (in martian sols ; =0 at Ls=0)?'
415      call getin("day0",day0)
416      day=float(day0)
417      write(*,*) " day0 = ",day0
418c  Local time at beginning of run
419      time=0 ! default value for time
420      write(*,*)'Initial local time (in hours, between 0 and 24)?'
421      call getin("time",time)
422      write(*,*)" time = ",time
423      time=time/24.E+0 ! convert time (hours) to fraction of sol
424
425c  Discretization (Definition of grid and time steps)
426c  --------------
427c
428      nlevel=nlayer+1
429      nsoil=nsoilmx
430
431      day_step=48 ! default value for day_step
432      PRINT *,'Number of time steps per sol ?'
433      call getin("day_step",day_step)
434      write(*,*) " day_step = ",day_step
435
436      ecritphy=day_step ! default value for ecritphy, output every time step
437
438      ndt=10 ! default value for ndt
439      PRINT *,'Number of sols to run ?'
440      call getin("ndt",ndt)
441      write(*,*) " ndt = ",ndt
442
443      ndt=ndt*day_step     
444      dtphys=daysec/day_step 
445
446c Imposed surface pressure
447c ------------------------------------
448c
449      psurf=610. ! default value for psurf
450      PRINT *,'Surface pressure (Pa) ?'
451      call getin("psurf",psurf)
452      write(*,*) " psurf = ",psurf
453c Reference pressures
454      pa=20.   ! transition pressure (for hybrid coord.)
455      preff=610.      ! reference surface pressure
456 
457c Aerosol properties
458c --------------------------------
459      tauvis=0.2 ! default value for tauvis (dust opacity)
460      write(*,'("Reference dust opacity at ",f4.0," Pa ?")')odpref
461      call getin("tauvis",tauvis)
462      write(*,*) " tauvis = ",tauvis
463
464c Orbital parameters
465c ------------------
466      print *,'Min. distance Sun-Mars (Mkm)?'
467      call getin("periheli",periheli)
468      write(*,*) " periheli = ",periheli
469
470      print *,'Max. distance Sun-Mars (Mkm)?'
471      call getin("aphelie",aphelie)
472      write(*,*) " aphelie = ",aphelie
473
474      print *,'Day of perihelion?'
475      call getin("periday",peri_day)
476      write(*,*) " periday = ",peri_day
477
478      print *,'Obliquity?'
479      call getin("obliquit",obliquit)
480      write(*,*) " obliquit = ",obliquit
481 
482c  latitude/longitude
483c  ------------------
484      latitude(1)=0 ! default value for latitude
485      PRINT *,'latitude (in degrees) ?'
486      call getin("latitude",latitude(1))
487      write(*,*) " latitude = ",latitude
488      latitude=latitude*pi/180.E+0
489      longitude=0.E+0
490      longitude=longitude*pi/180.E+0
491
492!  some initializations (some of which have already been
493!  done above!) and loads parameters set in callphys.def
494!  and allocates some arrays
495!Mars possible matter with dtphys in input and include!!!
496! Initializations below should mimick what is done in iniphysiq for 3D GCM
497      call init_physics_distribution(regular_lonlat,4,
498     &                               1,1,1,nlayer,1)
499      call init_interface_dyn_phys
500      call init_regular_lonlat(1,1,longitude,latitude,
501     &                   (/0.,0./),(/0.,0./))
502      call init_geometry(1,longitude,latitude,
503     &                   (/0.,0.,0.,0./),(/0.,0.,0.,0./),
504     &                   cell_area)
505! Ehouarn: init_vertial_layers called later (because disvert not called yet)
506!      call init_vertical_layers(nlayer,preff,scaleheight,
507!     &                      ap,bp,aps,bps,presnivs,pseudoalt)
508      call init_dimphy(1,nlayer) ! Initialize dimphy module
509      call phys_state_var_init(1,llm,nq,tname,
510     .          day0,time,daysec,dtphys,rad,g,r,cpp)
511      call ini_fillgeom(1,latitude,longitude,(/1.0/))
512      call conf_phys(1,llm,nq)
513
514      ! in 1D model physics are called every time step
515      ! ovverride iphysiq value that has been set by conf_phys
516      if (iphysiq/=1) then
517        write(*,*) "testphys1d: setting iphysiq=1"
518        iphysiq=1
519      endif
520
521c  Initialize albedo / soil thermal inertia
522c  ----------------------------------------
523c
524      albedodat(1)=0.2 ! default value for albedodat
525      PRINT *,'Albedo of bare ground ?'
526      call getin("albedo",albedodat(1))
527      write(*,*) " albedo = ",albedodat(1)
528      albedo(1,1)=albedodat(1)
529
530      inertiedat(1,1)=400 ! default value for inertiedat
531      PRINT *,'Soil thermal inertia (SI) ?'
532      call getin("inertia",inertiedat(1,1))
533      write(*,*) " inertia = ",inertiedat(1,1)
534
535      z0(1)=z0_default ! default value for roughness
536      write(*,*) 'Surface roughness length z0 (m)?'
537      call getin("z0",z0(1))
538      write(*,*) " z0 = ",z0(1)
539
540! Initialize local slope parameters (only matters if "callslope"
541! is .true. in callphys.def)
542      ! slope inclination angle (deg) 0: horizontal, 90: vertical
543      theta_sl(1)=0.0 ! default: no inclination
544      call getin("slope_inclination",theta_sl(1))
545      ! slope orientation (deg)
546      ! 0 == Northward, 90 == Eastward, 180 == Southward, 270 == Westward
547      psi_sl(1)=0.0 ! default value
548      call getin("slope_orientation",psi_sl(1))
549     
550c
551c  for the gravity wave scheme
552c  ---------------------------------
553c
554      zmea(1)=0.E+0
555      zstd(1)=0.E+0
556      zsig(1)=0.E+0
557      zgam(1)=0.E+0
558      zthe(1)=0.E+0     
559      hmons(1)=0.E+0
560      summit(1)=0.E+0
561      base(1)=0.E+0
562     
563c   Specific initializations for "physiq"
564c   -------------------------------------
565c   surface geopotential is not used (or useful) since in 1D
566c   everything is controled by surface pressure
567      phisfi(1)=0.E+0
568
569c   Initialization to take into account prescribed winds
570c   ------------------------------------------------------
571      ptif=2.E+0*omeg*sinlat(1)
572 
573c    geostrophic wind
574      gru=10. ! default value for gru
575      PRINT *,'zonal eastward component of the geostrophic wind (m/s) ?'
576      call getin("u",gru)
577      write(*,*) " u = ",gru
578      grv=0. !default value for grv
579      PRINT *,'meridional northward component of the geostrophic',
580     &' wind (m/s) ?'
581      call getin("v",grv)
582      write(*,*) " v = ",grv
583
584c     Initialize winds  for first time step
585      DO ilayer=1,nlayer
586         u(ilayer)=gru
587         v(ilayer)=grv
588         w(ilayer)=0 ! default: no vertical wind
589      ENDDO
590
591c     Initialize turbulente kinetic energy
592      DO ilevel=1,nlevel
593         q2(ilevel)=0.E+0
594      ENDDO
595
596c  CO2 ice on the surface
597c  -------------------
598      co2ice(1)=0.E+0 ! default value for co2ice
599      PRINT *,'Initial CO2 ice on the surface (kg.m-2)'
600      call getin("co2ice",co2ice)
601      write(*,*) " co2ice = ",co2ice
602! Initialization for CO2 clouds (could be improved to read initial profiles)
603      mem_Mccn_co2(:,:)=0
604      mem_Mh2o_co2(:,:)=0
605      mem_Nccn_co2(:,:)=0
606c
607c  emissivity
608c  ----------
609      emis=emissiv
610      IF (co2ice(1).eq.1.E+0) THEN
611         emis=emisice(1) ! northern hemisphere
612         IF(latitude(1).LT.0) emis=emisice(2) ! southern hemisphere
613      ENDIF
614
615 
616
617c  Compute pressures and altitudes of atmospheric levels
618c  ----------------------------------------------------------------
619
620c    Vertical Coordinates
621c    """"""""""""""""""""
622      hybrid=.true.
623      PRINT *,'Hybrid coordinates ?'
624      call getin("hybrid",hybrid)
625      write(*,*) " hybrid = ", hybrid
626
627      CALL  disvert
628      ! now that disvert has been called, initialize module vertical_layers_mod
629      call init_vertical_layers(nlayer,preff,scaleheight,
630     &                      ap,bp,aps,bps,presnivs,pseudoalt)
631
632      DO ilevel=1,nlevel
633        plev(ilevel)=ap(ilevel)+psurf*bp(ilevel)
634      ENDDO
635
636      DO ilayer=1,nlayer
637        play(ilayer)=aps(ilayer)+psurf*bps(ilayer)
638      ENDDO
639
640      DO ilayer=1,nlayer
641        zlay(ilayer)=-200.E+0 *r*log(play(ilayer)/plev(1))
642     &   /g
643      ENDDO
644
645
646c  Initialize temperature profile
647c  --------------------------------------
648      pks=psurf**rcp
649
650c altitude in km in profile: divide zlay by 1000
651      tmp1(0)=0.E+0
652      DO ilayer=1,nlayer
653        tmp1(ilayer)=zlay(ilayer)/1000.E+0
654      ENDDO
655
656      call profile(nlayer+1,tmp1,tmp2)
657
658      tsurf=tmp2(0)
659      DO ilayer=1,nlayer
660        temp(ilayer)=tmp2(ilayer)
661      ENDDO
662     
663
664
665! Initialize soil properties and temperature
666! ------------------------------------------
667      volcapa=1.e6 ! volumetric heat capacity
668      DO isoil=1,nsoil
669         inertiedat(1,isoil)=inertiedat(1,1) ! soil thermal inertia
670         tsoil(isoil)=tsurf(1)  ! soil temperature
671      ENDDO
672
673! Initialize depths
674! -----------------
675      do isoil=0,nsoil-1
676        mlayer(isoil)=2.e-4*(2.**(isoil-0.5)) ! mid-layer depth
677      enddo
678      do isoil=1,nsoil
679        layer(isoil)=2.e-4*(2.**(isoil-1)) ! layer depth
680      enddo
681
682c    Initialize traceurs
683c    ---------------------------
684
685      if (photochem.or.callthermos) then
686         write(*,*) 'Initializing chemical species'
687         ! thermo=0: initialize over all atmospheric layers
688         thermo=0
689         call inichim_newstart(q,psurf,sig,nq,latitude,longitude,
690     $   cell_area,thermo,qsurf)
691      endif
692
693c Check if the surface is a water ice reservoir
694c --------------------------------------------------
695      watercaptag(1)=.false. ! Default: no water ice reservoir
696      print *,'Water ice cap on ground ?'
697      call getin("watercaptag",watercaptag)
698      write(*,*) " watercaptag = ",watercaptag
699     
700
701c    Initialization for GRADS outputs in "g1d.dat" and "g1d.ctl"
702c    ----------------------------------------------------------------
703c    (output done in "writeg1d", typically called by "physiq.F")
704
705        g1d_nlayer=nlayer
706        g1d_nomfich='g1d.dat'
707        g1d_unitfich=40
708        g1d_nomctl='g1d.ctl'
709        g1d_unitctl=41
710        g1d_premier=.true.
711        g2d_premier=.true.
712
713c  Write a "startfi" file
714c  --------------------
715c  This file will be read during the first call to "physiq".
716c  It is needed to transfert physics variables to "physiq"...
717
718      call physdem0("startfi.nc",longitude,latitude,nsoilmx,ngrid,llm,
719     &              nq,dtphys,float(day0),time,cell_area,
720     &              albedodat,inertiedat,zmea,zstd,zsig,zgam,zthe,
721     &              hmons,summit,base)
722      call physdem1("startfi.nc",nsoilmx,ngrid,llm,nq,
723     &              dtphys,time,
724     &              tsurf,tsoil,co2ice,albedo,emis,q2,qsurf,tauscaling,
725     &              totcloudfrac,wstar,
726     &              mem_Mccn_co2,mem_Nccn_co2,
727     &              mem_Mh2o_co2)
728
729c=======================================================================
730c  1D MODEL TIME STEPPING LOOP
731c=======================================================================
732c
733      firstcall=.true.
734      lastcall=.false.
735
736      DO idt=1,ndt
737c        IF (idt.eq.ndt) lastcall=.true.
738        IF (idt.eq.ndt-day_step-1) then       !test
739         lastcall=.true.
740         call solarlong(day*1.0,zls)
741         write(103,*) 'Ls=',zls*180./pi
742         write(103,*) 'Lat=', latitude(1)*180./pi
743         write(103,*) 'Tau=', tauvis/odpref*psurf
744         write(103,*) 'RunEnd - Atmos. Temp. File'
745         write(103,*) 'RunEnd - Atmos. Temp. File'
746         write(104,*) 'Ls=',zls*180./pi
747         write(104,*) 'Lat=', latitude(1)
748         write(104,*) 'Tau=', tauvis/odpref*psurf
749         write(104,*) 'RunEnd - Atmos. Temp. File'
750        ENDIF
751
752c     compute geopotential
753c     ~~~~~~~~~~~~~~~~~~~~~
754      DO ilayer=1,nlayer
755        s(ilayer)=(aps(ilayer)/psurf+bps(ilayer))**rcp
756        h(ilayer)=cpp*temp(ilayer)/(pks*s(ilayer))
757      ENDDO
758      phi(1)=pks*h(1)*(1.E+0-s(1))
759      DO ilayer=2,nlayer
760         phi(ilayer)=phi(ilayer-1)+
761     &               pks*(h(ilayer-1)+h(ilayer))*.5E+0
762     &                  *(s(ilayer-1)-s(ilayer))
763
764      ENDDO
765
766c       call physics
767c       --------------------
768!      write(*,*) "testphys1d avant q", q(1,:)
769      CALL physiq (1,llm,nq,
770     ,     firstcall,lastcall,
771     ,     day,time,dtphys,
772     ,     plev,play,phi,
773     ,     u, v,temp, q, 
774     ,     w,
775C - outputs
776     s     du, dv, dtemp, dq,dpsurf)
777!      write(*,*) "testphys1d apres q", q(1,:)
778
779
780c       wind increment : specific for 1D
781c       --------------------------------
782 
783c       The physics compute the tendencies on u and v,
784c       here we just add Coriolos effect
785c
786c       DO ilayer=1,nlayer
787c          du(ilayer)=du(ilayer)+ptif*(v(ilayer)-grv)
788c          dv(ilayer)=dv(ilayer)+ptif*(-u(ilayer)+gru)
789c       ENDDO
790
791c       For some tests : No coriolis force at equator
792c       if(latitude(1).eq.0.) then
793          DO ilayer=1,nlayer
794             du(ilayer)=du(ilayer)+ (gru-u(ilayer))/1.e4
795             dv(ilayer)=dv(ilayer)+ (grv-v(ilayer))/1.e4
796          ENDDO
797c       end if
798c     
799c
800c       Compute time for next time step
801c       ---------------------------------------
802        firstcall=.false.
803        time=time+dtphys/daysec
804        IF (time.gt.1.E+0) then
805            time=time-1.E+0
806            day=day+1
807        ENDIF
808
809c       compute winds and temperature for next time step
810c       ----------------------------------------------------------
811
812        DO ilayer=1,nlayer
813           u(ilayer)=u(ilayer)+dtphys*du(ilayer)
814           v(ilayer)=v(ilayer)+dtphys*dv(ilayer)
815           temp(ilayer)=temp(ilayer)+dtphys*dtemp(ilayer)
816        ENDDO
817
818c       compute pressure for next time step
819c       ----------------------------------------------------------
820
821           psurf=psurf+dtphys*dpsurf(1)   ! surface pressure change
822           DO ilevel=1,nlevel
823             plev(ilevel)=ap(ilevel)+psurf*bp(ilevel)
824           ENDDO
825           DO ilayer=1,nlayer
826             play(ilayer)=aps(ilayer)+psurf*bps(ilayer)
827           ENDDO
828
829!       increment tracers
830        DO iq = 1, nq
831          DO ilayer=1,nlayer
832             q(ilayer,iq)=q(ilayer,iq)+dtphys*dq(ilayer,iq)
833          ENDDO
834        ENDDO
835
836      ENDDO   ! of idt=1,ndt ! end of time stepping loop
837
838c    ========================================================
839c    OUTPUTS
840c    ========================================================
841
842c    finalize and close grads files "g1d.dat" and "g1d.ctl"
843
844c        CALL endg1d(1,nlayer,zphi/(g*1000.),ndt)
845        CALL endg1d(1,nlayer,zlay/1000.,ndt)
846
847      write(*,*) "testphys1d: Everything is cool."
848
849      END
850 
851c***********************************************************************
852c***********************************************************************
853c     Dummy subroutines used only in 3D, but required to
854c     compile testphys1d (to cleanly use writediagfi)
855
856      subroutine gr_fi_dyn(nfield,ngrid,im,jm,pfi,pdyn)
857
858      IMPLICIT NONE
859
860      INTEGER im,jm,ngrid,nfield
861      REAL pdyn(im,jm,nfield)
862      REAL pfi(ngrid,nfield)
863     
864      if (ngrid.ne.1) then
865        write(*,*) "gr_fi_dyn error: in 1D ngrid should be 1!!!"
866        stop
867      endif
868     
869      pdyn(1,1,1:nfield)=pfi(1,1:nfield)
870     
871      end
872 
873c***********************************************************************
874c***********************************************************************
875
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