source: palm/trunk/SOURCE/swap_timelevel.f90 @ 357

Last change on this file since 357 was 110, checked in by raasch, 17 years ago

New:
---
Allows runs for a coupled atmosphere-ocean LES,
coupling frequency is controlled by new d3par-parameter dt_coupling,
the coupling mode (atmosphere_to_ocean or ocean_to_atmosphere) for the
respective processes is read from environment variable coupling_mode,
which is set by the mpiexec-command,
communication between the two models is done using the intercommunicator
comm_inter,
local files opened by the ocean model get the additional suffic "_O".
Assume saturation at k=nzb_s_inner(j,i) for atmosphere coupled to ocean.

A momentum flux can be set as top boundary condition using the new
inipar parameter top_momentumflux_u|v.

Non-cyclic boundary conditions can be used along all horizontal directions.

Quantities w*p* and w"e can be output as vertical profiles.

Initial profiles are reset to constant profiles in case that initializing_actions /= 'set_constant_profiles'. (init_rankine)

Optionally calculate km and kh from initial TKE e_init.

Changed:


Remaining variables iran changed to iran_part (advec_particles, init_particles).

In case that the presure solver is not called for every Runge-Kutta substep
(call_psolver_at_all_substeps = .F.), it is called after the first substep
instead of the last. In that case, random perturbations are also added to the
velocity field after the first substep.

Initialization of km,kh = 0.00001 for ocean = .T. (for ocean = .F. it remains 0.01).

Allow data_output_pr= q, wq, w"q", w*q* for humidity = .T. (instead of cloud_physics = .T.).

Errors:


Bugs from code parts for non-cyclic boundary conditions are removed: loops for
u and v are starting from index nxlu, nysv, respectively. The radiation boundary
condition is used for every Runge-Kutta substep. Velocity phase speeds for
the radiation boundary conditions are calculated for the first Runge-Kutta
substep only and reused for the further substeps. New arrays c_u, c_v, and c_w
are defined for this purpose. Several index errors are removed from the
radiation boundary condition code parts. Upper bounds for calculating
u_0 and v_0 (in production_e) are nxr+1 and nyn+1 because otherwise these
values are not available in case of non-cyclic boundary conditions.

+dots_num_palm in module user, +module netcdf_control in user_init (both in user_interface)

Bugfix: wrong sign removed from the buoyancy production term in the case use_reference = .T. (production_e)

Bugfix: Error message concerning output of particle concentration (pc) modified (check_parameters).

Bugfix: Rayleigh damping for ocean fixed.

  • Property svn:keywords set to Id
File size: 6.3 KB
RevLine 
[1]1 SUBROUTINE swap_timelevel
2
[3]3!------------------------------------------------------------------------------!
[1]4! Actual revisions:
5! -----------------
[110]6!
[1]7!
8! Former revisions:
9! -----------------
[3]10! $Id: swap_timelevel.f90 110 2007-10-05 05:13:14Z heinze $
[39]11!
[110]12! 102 2007-07-27 09:09:17Z raasch
13! swaping of uswst, vswst included
14!
[98]15! 95 2007-06-02 16:48:38Z raasch
16! Swaping of salinity
17!
[77]18! 75 2007-03-22 09:54:05Z raasch
19! moisture renamed humidity
20!
[39]21! 19 2007-02-23 04:53:48Z raasch
22! Swaping of top fluxes
23!
[3]24! RCS Log replace by Id keyword, revision history cleaned up
25!
[1]26! Revision 1.8  2004/01/28 15:28:18  raasch
27! Swaping for Runge-Kutta schemes implemented
28!
29! Revision 1.1  2000/01/10  10:08:58  10:08:58  raasch (Siegfried Raasch)
30! Initial revision
31!
32!
33! Description:
34! ------------
35! Swap of timelevels of variables after each timestep
[3]36!------------------------------------------------------------------------------!
[1]37
38    USE arrays_3d
39    USE cpulog
40    USE interfaces
41    USE control_parameters
42
43    IMPLICIT NONE
44
45
46    CALL cpu_log( log_point(28), 'swap_timelevel', 'start' )
47
48!
49!-- Incrementing timestep counter
50    timestep_count = timestep_count + 1
51
52!
53!-- Swap of 3-level variables
54    IF ( timestep_scheme(1:5) /= 'runge' )  THEN
55
56       SELECT CASE ( MOD( timestep_count, 3 ) )
57
58          CASE ( 0 )
59
60             u_m  => u_1;   u  => u_2;  u_p  => u_3
61             v_m  => v_1;   v  => v_2;  v_p  => v_3
62             w_m  => w_1;   w  => w_2;  w_p  => w_3
63             pt_m => pt_1;  pt => pt_2; pt_p => pt_3
64             IF ( .NOT. constant_diffusion )  THEN
65                e_m => e_1;  e => e_2;  e_p => e_3
66             ENDIF
[75]67             IF ( humidity  .OR.  passive_scalar )  THEN
[1]68                q_m => q_1;  q => q_2;  q_p => q_3
69             ENDIF
70
71          CASE ( 1 )
72
73             u_m  => u_2;   u  => u_3;  u_p  => u_1
74             v_m  => v_2;   v  => v_3;  v_p  => v_1
75             w_m  => w_2;   w  => w_3;  w_p  => w_1
76             pt_m => pt_2;  pt => pt_3; pt_p => pt_1
77             IF ( .NOT. constant_diffusion )  THEN
78                e_m => e_2;  e => e_3;  e_p => e_1
79             ENDIF
[75]80             IF ( humidity  .OR.  passive_scalar )  THEN
[1]81                q_m => q_2;  q => q_3;  q_p => q_1
82             ENDIF
83
84          CASE ( 2 )
85
86             u_m  => u_3;   u  => u_1;  u_p  => u_2
87             v_m  => v_3;   v  => v_1;  v_p  => v_2
88             w_m  => w_3;   w  => w_1;  w_p  => w_2
89             pt_m => pt_3;  pt => pt_1; pt_p => pt_2
90             IF ( .NOT. constant_diffusion )  THEN
91                e_m => e_3;  e => e_1;  e_p => e_2
92             ENDIF
[75]93             IF ( humidity  .OR.  passive_scalar )  THEN
[1]94                q_m => q_3;  q => q_1;  q_p => q_2
95             ENDIF
96
97       END SELECT
98
99    ENDIF
100
101!
102!-- Swap of 2-level variables
103    SELECT CASE ( MOD( timestep_count, 2 ) )
104
105       CASE ( 0 )
106
107          IF ( timestep_scheme(1:5) == 'runge' )  THEN
108
109             u  => u_1;   u_p  => u_2
110             v  => v_1;   v_p  => v_2
111             w  => w_1;   w_p  => w_2
112             pt => pt_1;  pt_p => pt_2
113             IF ( .NOT. constant_diffusion )  THEN
[95]114                e => e_1;    e_p => e_2
[1]115             ENDIF
[95]116             IF ( ocean )  THEN
117                sa => sa_1;  sa_p => sa_2
118             ENDIF
[75]119             IF ( humidity  .OR.  passive_scalar )  THEN
[95]120                q => q_1;    q_p => q_2
[1]121             ENDIF
122
123          ELSE
124!
125!--          Old timelevels are needed for explicit diffusion within leapfrog
126             IF ( .NOT. constant_diffusion )  THEN
127                kh_m => kh_1;  kh => kh_2
128                km_m => km_1;  km => km_2
129                IF ( use_surface_fluxes )  THEN
130                   usws_m => usws_1;  usws => usws_2
131                   vsws_m => vsws_1;  vsws => vsws_2
132                   shf_m  => shf_1;   shf  => shf_2
[75]133                   IF ( humidity  .OR.  passive_scalar )  THEN
[1]134                      qsws_m => qsws_1;  qsws => qsws_2
135                   ENDIF
136                ENDIF
137                IF ( prandtl_layer )  THEN
138                   rif_m  => rif_1;   rif  => rif_2
139                ENDIF
[19]140                IF ( use_top_fluxes )  THEN
[102]141                   uswst_m => uswst_1;  uswst => uswst_2
142                   vswst_m => vswst_1;  vswst => vswst_2
[19]143                   tswst_m => tswst_1;  tswst => tswst_2
[75]144                   IF ( humidity  .OR.  passive_scalar )  THEN
[19]145                      qswst_m => qswst_1;  qswst => qswst_2
146                   ENDIF
147                ENDIF
[1]148             ENDIF
149
[75]150             IF ( humidity )  THEN
[1]151                vpt_m => vpt_1;  vpt => vpt_2
152             ENDIF
153
154          ENDIF
155
156       CASE ( 1 )
157
158          IF ( timestep_scheme(1:5) == 'runge' )  THEN
159
160             u  => u_2;   u_p  => u_1
161             v  => v_2;   v_p  => v_1
162             w  => w_2;   w_p  => w_1
163             pt => pt_2;  pt_p => pt_1
164             IF ( .NOT. constant_diffusion )  THEN
[95]165                e => e_2;    e_p => e_1
[1]166             ENDIF
[95]167             IF ( ocean )  THEN
168                sa => sa_2;  sa_p => sa_1
169             ENDIF
[75]170             IF ( humidity  .OR.  passive_scalar )  THEN
[95]171                q => q_2;    q_p => q_1
[1]172             ENDIF
173
174          ELSE
175
176             IF ( .NOT. constant_diffusion )  THEN
177                kh_m => kh_2;  kh => kh_1
178                km_m => km_2;  km => km_1
179                IF ( use_surface_fluxes )  THEN
180                   usws_m => usws_2;  usws => usws_1
181                   vsws_m => vsws_2;  vsws => vsws_1
182                   shf_m  => shf_2;   shf  => shf_1
[75]183                   IF ( humidity  .OR.  passive_scalar )  THEN
[1]184                      qsws_m => qsws_2;  qsws => qsws_1
185                   ENDIF
186                ENDIF
187                IF ( prandtl_layer )  THEN
188                   rif_m  => rif_2;   rif  => rif_1
189                ENDIF
[19]190                IF ( use_top_fluxes )  THEN
[102]191                   uswst_m => uswst_2;  uswst => uswst_1
192                   vswst_m => vswst_2;  vswst => vswst_1
193                   tswst_m => tswst_2;  tswst => tswst_1
[75]194                   IF ( humidity  .OR.  passive_scalar )  THEN
[19]195                      qswst_m => qswst_2;  qswst => qswst_1
196                   ENDIF
197                ENDIF
[1]198             ENDIF
199
[75]200             IF ( humidity )  THEN
[1]201                vpt_m => vpt_2;  vpt => vpt_1
202             ENDIF
203
204          ENDIF
205
206    END SELECT
207
208    CALL cpu_log( log_point(28), 'swap_timelevel', 'stop' )
209
210 END SUBROUTINE swap_timelevel
211
212
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