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write_3d_binary.f90 @ 114

Last change on this file since 114 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: 12.2 KB

Rev	Line
[1]	1	SUBROUTINE write_3d_binary
	2
	3	!------------------------------------------------------------------------------!
	4	! Actual revisions:
	5	! -----------------
[110]	6	!
[1]	7	!
	8	! Former revisions:
	9	! -----------------
[3]	10	! $Id: write_3d_binary.f90 110 2007-10-05 05:13:14Z raasch $
[39]	11	!
[110]	12	! 102 2007-07-27 09:09:17Z raasch
	13	! +uswst, uswst_m, vswst, vswst_m
	14	!
[98]	15	! 96 2007-06-04 08:07:41Z raasch
	16	! +rho_av, sa, sa_av, saswsb, saswst
	17	!
[77]	18	! 75 2007-03-22 09:54:05Z raasch
	19	! +precipitation_amount, precipitation_rate_av, rif_wall, u_m_l, u_m_r, etc.,
	20	! z0_av, moisture renamed humidity
	21	!
[39]	22	! 19 2007-02-23 04:53:48Z raasch
	23	! +qswst, qswst_m, tswst, tswst_m
	24	!
[3]	25	! RCS Log replace by Id keyword, revision history cleaned up
	26	!
[1]	27	! Revision 1.21 2006/08/04 15:05:11 raasch
	28	! +iran, iran_part
	29	!
	30	! Revision 1.1 1998/03/18 20:20:21 raasch
	31	! Initial revision
	32	!
	33	!
	34	! Description:
	35	! ------------
	36	! Binary output of variables and arrays for restarts.
	37	!------------------------------------------------------------------------------!
	38
	39	USE arrays_3d
	40	USE averaging
[72]	41	USE cloud_parameters
[1]	42	USE control_parameters
	43	USE cpulog
	44	USE indices
	45	USE interfaces
	46	USE particle_attributes
	47	USE pegrid
	48	USE profil_parameter
	49	USE random_function_mod
	50	USE statistics
	51
	52	IMPLICIT NONE
	53
	54	CHARACTER (LEN=10) :: binary_version
	55
	56
	57	CALL cpu_log( log_point(22), 'write_3d_binary', 'start' )
	58
	59	CALL check_open( 14 )
	60
	61	!
	62	!-- Write control parameters and other variables for restart.
	63	CALL write_var_list
	64
	65	!
	66	!-- Write arrays.
	67	binary_version = '3.0'
	68
	69	WRITE ( 14 ) binary_version
	70
	71	WRITE ( 14 ) numprocs, myid, nxl, nxr, nys, nyn, nzb, nzt
	72
	73	!
	74	!-- Attention: After changes to the following output commands the version number
	75	!-- --------- of the variable binary_version must be changed!
	76	!-- Also, the list of arrays to be read in read_3d_binary must be
	77	!-- adjusted accordingly.
	78
	79	WRITE ( 14 ) 'e '; WRITE ( 14 ) e
	80	IF ( ALLOCATED( e_av ) ) THEN
	81	WRITE ( 14 ) 'e_av '; WRITE ( 14 ) e_av
	82	ENDIF
	83	WRITE ( 14 ) 'e_m '; WRITE ( 14 ) e_m
	84	WRITE ( 14 ) 'iran '; WRITE ( 14 ) iran, iran_part
	85	WRITE ( 14 ) 'kh '; WRITE ( 14 ) kh
	86	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	87	WRITE ( 14 ) 'kh_m '; WRITE ( 14 ) kh_m
	88	ENDIF
	89	WRITE ( 14 ) 'km '; WRITE ( 14 ) km
	90	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	91	WRITE ( 14 ) 'km_m '; WRITE ( 14 ) km_m
	92	ENDIF
	93	IF ( ALLOCATED( lwp_av ) ) THEN
	94	WRITE ( 14 ) 'lwp_av '; WRITE ( 14 ) lwp_av
	95	ENDIF
	96	WRITE ( 14 ) 'p '; WRITE ( 14 ) p
	97	IF ( ALLOCATED( p_av ) ) THEN
	98	WRITE ( 14 ) 'p_av '; WRITE ( 14 ) p_av
	99	ENDIF
	100	IF ( ALLOCATED( pc_av ) ) THEN
	101	WRITE ( 14 ) 'pc_av '; WRITE ( 14 ) pc_av
	102	ENDIF
	103	IF ( ALLOCATED( pr_av ) ) THEN
	104	WRITE ( 14 ) 'pr_av '; WRITE ( 14 ) pr_av
	105	ENDIF
[72]	106	IF ( ALLOCATED( precipitation_amount ) ) THEN
	107	WRITE ( 14 ) 'precipitation_amount'; WRITE ( 14 ) precipitation_amount
	108	ENDIF
	109	IF ( ALLOCATED( precipitation_rate_av ) ) THEN
	110	WRITE ( 14 ) 'precipitation_rate_a'; WRITE ( 14 ) &
	111	precipitation_rate_av
	112	ENDIF
[1]	113	WRITE ( 14 ) 'pt '; WRITE ( 14 ) pt
	114	IF ( ALLOCATED( pt_av ) ) THEN
	115	WRITE ( 14 ) 'pt_av '; WRITE ( 14 ) pt_av
	116	ENDIF
	117	WRITE ( 14 ) 'pt_m '; WRITE ( 14 ) pt_m
[75]	118	IF ( humidity .OR. passive_scalar ) THEN
[1]	119	WRITE ( 14 ) 'q '; WRITE ( 14 ) q
	120	IF ( ALLOCATED( q_av ) ) THEN
	121	WRITE ( 14 ) 'q_av '; WRITE ( 14 ) q_av
	122	ENDIF
	123	WRITE ( 14 ) 'q_m '; WRITE ( 14 ) q_m
	124	IF ( cloud_physics ) THEN
	125	WRITE ( 14 ) 'ql '; WRITE ( 14 ) ql
	126	IF ( ALLOCATED( ql_av ) ) THEN
	127	WRITE ( 14 ) 'ql_av '; WRITE ( 14 ) ql_av
	128	ENDIF
	129	ENDIF
	130	WRITE ( 14 ) 'qs '; WRITE ( 14 ) qs
	131	WRITE ( 14 ) 'qsws '; WRITE ( 14 ) qsws
	132	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	133	WRITE ( 14 ) 'qsws_m '; WRITE ( 14 ) qsws_m
	134	ENDIF
[19]	135	WRITE ( 14 ) 'qswst '; WRITE ( 14 ) qswst
	136	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	137	WRITE ( 14 ) 'qswst_m '; WRITE ( 14 ) qswst_m
	138	ENDIF
[1]	139	ENDIF
[94]	140	IF ( ocean ) THEN
[96]	141	IF ( ALLOCATED( rho_av ) ) THEN
	142	WRITE ( 14 ) 'rho_av '; WRITE ( 14 ) rho_av
	143	ENDIF
[94]	144	WRITE ( 14 ) 'sa '; WRITE ( 14 ) sa
[96]	145	IF ( ALLOCATED( sa_av ) ) THEN
	146	WRITE ( 14 ) 'sa_av '; WRITE ( 14 ) sa_av
	147	ENDIF
[95]	148	WRITE ( 14 ) 'saswsb '; WRITE ( 14 ) saswsb
[94]	149	WRITE ( 14 ) 'saswst '; WRITE ( 14 ) saswst
	150	ENDIF
[1]	151	IF ( ALLOCATED( ql_c_av ) ) THEN
	152	WRITE ( 14 ) 'ql_c_av '; WRITE ( 14 ) ql_c_av
	153	ENDIF
	154	IF ( ALLOCATED( ql_v_av ) ) THEN
	155	WRITE ( 14 ) 'ql_v_av '; WRITE ( 14 ) ql_v_av
	156	ENDIF
	157	IF ( ALLOCATED( ql_vp_av ) ) THEN
	158	WRITE ( 14 ) 'ql_vp_av '; WRITE ( 14 ) ql_vp_av
	159	ENDIF
	160	IF ( ALLOCATED( qv_av ) ) THEN
	161	WRITE ( 14 ) 'qv_av '; WRITE ( 14 ) qv_av
	162	ENDIF
	163	WRITE ( 14 ) 'random_iv '; WRITE ( 14 ) random_iv
	164	WRITE ( 14 ) random_iy
	165	WRITE ( 14 ) 'rif '; WRITE ( 14 ) rif
	166	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	167	WRITE ( 14 ) 'rif_m '; WRITE ( 14 ) rif_m
	168	ENDIF
[51]	169	IF ( topography /= 'flat' ) THEN
	170	WRITE ( 14 ) 'rif_wall '; WRITE ( 14 ) rif_wall
	171	ENDIF
[1]	172	IF ( ALLOCATED( s_av ) ) THEN
	173	WRITE ( 14 ) 's_av '; WRITE ( 14 ) s_av
	174	ENDIF
	175	WRITE ( 14 ) 'shf '; WRITE ( 14 ) shf
	176	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	177	WRITE ( 14 ) 'shf_m '; WRITE ( 14 ) shf_m
	178	ENDIF
	179	WRITE ( 14 ) 'ts '; WRITE ( 14 ) ts
	180	IF ( ALLOCATED( ts_av ) ) THEN
	181	WRITE ( 14 ) 'ts_av '; WRITE ( 14 ) ts_av
	182	ENDIF
[19]	183	WRITE ( 14 ) 'tswst '; WRITE ( 14 ) tswst
	184	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	185	WRITE ( 14 ) 'tswst_m '; WRITE ( 14 ) tswst_m
	186	ENDIF
[1]	187	WRITE ( 14 ) 'u '; WRITE ( 14 ) u
	188	IF ( ALLOCATED( u_av ) ) THEN
	189	WRITE ( 14 ) 'u_av '; WRITE ( 14 ) u_av
	190	ENDIF
	191	WRITE ( 14 ) 'u_m '; WRITE ( 14 ) u_m
[73]	192	IF ( ALLOCATED( u_m_l ) ) THEN
	193	WRITE ( 14 ) 'u_m_l '; WRITE ( 14 ) u_m_l
	194	ENDIF
	195	IF ( ALLOCATED( u_m_n ) ) THEN
	196	WRITE ( 14 ) 'u_m_n '; WRITE ( 14 ) u_m_n
	197	ENDIF
	198	IF ( ALLOCATED( u_m_r ) ) THEN
	199	WRITE ( 14 ) 'u_m_r '; WRITE ( 14 ) u_m_r
	200	ENDIF
	201	IF ( ALLOCATED( u_m_s ) ) THEN
	202	WRITE ( 14 ) 'u_m_s '; WRITE ( 14 ) u_m_s
	203	ENDIF
[1]	204	WRITE ( 14 ) 'us '; WRITE ( 14 ) us
	205	WRITE ( 14 ) 'usws '; WRITE ( 14 ) usws
[102]	206	WRITE ( 14 ) 'uswst '; WRITE ( 14 ) uswst
[1]	207	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	208	WRITE ( 14 ) 'usws_m '; WRITE ( 14 ) usws_m
[102]	209	WRITE ( 14 ) 'uswst_m '; WRITE ( 14 ) uswst_m
[1]	210	ENDIF
	211	IF ( ALLOCATED( us_av ) ) THEN
	212	WRITE ( 14 ) 'us_av '; WRITE ( 14 ) us_av
	213	ENDIF
	214	WRITE ( 14 ) 'v '; WRITE ( 14 ) v
	215	WRITE ( 14 ) 'volume_flow_area '; WRITE ( 14 ) volume_flow_area
	216	WRITE ( 14 ) 'volume_flow_initial '; WRITE ( 14 ) volume_flow_initial
	217	IF ( ALLOCATED( v_av ) ) THEN
	218	WRITE ( 14 ) 'v_av '; WRITE ( 14 ) v_av
	219	ENDIF
	220	WRITE ( 14 ) 'v_m '; WRITE ( 14 ) v_m
[73]	221	IF ( ALLOCATED( v_m_l ) ) THEN
	222	WRITE ( 14 ) 'v_m_l '; WRITE ( 14 ) v_m_l
	223	ENDIF
	224	IF ( ALLOCATED( v_m_n ) ) THEN
	225	WRITE ( 14 ) 'v_m_n '; WRITE ( 14 ) v_m_n
	226	ENDIF
	227	IF ( ALLOCATED( v_m_r ) ) THEN
	228	WRITE ( 14 ) 'v_m_r '; WRITE ( 14 ) v_m_r
	229	ENDIF
	230	IF ( ALLOCATED( v_m_s ) ) THEN
	231	WRITE ( 14 ) 'v_m_s '; WRITE ( 14 ) v_m_s
	232	ENDIF
[75]	233	IF ( humidity ) THEN
[1]	234	WRITE ( 14 ) 'vpt '; WRITE ( 14 ) vpt
	235	IF ( ALLOCATED( vpt_av ) ) THEN
	236	WRITE ( 14 ) 'vpt_av '; WRITE ( 14 ) vpt_av
	237	ENDIF
	238	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	239	WRITE ( 14 ) 'vpt_m '; WRITE ( 14 ) vpt_m
	240	ENDIF
	241	ENDIF
	242	WRITE ( 14 ) 'vsws '; WRITE ( 14 ) vsws
[102]	243	WRITE ( 14 ) 'vswst '; WRITE ( 14 ) vswst
[1]	244	IF ( timestep_scheme(1:5) /= 'runge' ) THEN
	245	WRITE ( 14 ) 'vsws_m '; WRITE ( 14 ) vsws_m
[102]	246	WRITE ( 14 ) 'vswst_m '; WRITE ( 14 ) vswst_m
[1]	247	ENDIF
	248	WRITE ( 14 ) 'w '; WRITE ( 14 ) w
	249	IF ( ALLOCATED( w_av ) ) THEN
	250	WRITE ( 14 ) 'w_av '; WRITE ( 14 ) w_av
	251	ENDIF
	252	WRITE ( 14 ) 'w_m '; WRITE ( 14 ) w_m
[73]	253	IF ( ALLOCATED( w_m_l ) ) THEN
	254	WRITE ( 14 ) 'w_m_l '; WRITE ( 14 ) w_m_l
	255	ENDIF
	256	IF ( ALLOCATED( w_m_n ) ) THEN
	257	WRITE ( 14 ) 'w_m_n '; WRITE ( 14 ) w_m_n
	258	ENDIF
	259	IF ( ALLOCATED( w_m_r ) ) THEN
	260	WRITE ( 14 ) 'w_m_r '; WRITE ( 14 ) w_m_r
	261	ENDIF
	262	IF ( ALLOCATED( w_m_s ) ) THEN
	263	WRITE ( 14 ) 'w_m_s '; WRITE ( 14 ) w_m_s
	264	ENDIF
[1]	265	WRITE ( 14 ) 'z0 '; WRITE ( 14 ) z0
[72]	266	IF ( ALLOCATED( z0_av ) ) THEN
	267	WRITE ( 14 ) 'z0_av '; WRITE ( 14 ) z0_av
	268	ENDIF
[1]	269
	270	WRITE ( 14 ) 'cross_linecolors '; WRITE ( 14 ) cross_linecolors
	271	WRITE ( 14 ) 'cross_linestyles '; WRITE ( 14 ) cross_linestyles
	272	WRITE ( 14 ) 'cross_normalized_x '; WRITE ( 14 ) cross_normalized_x
	273	WRITE ( 14 ) 'cross_normalized_y '; WRITE ( 14 ) cross_normalized_y
	274	WRITE ( 14 ) 'cross_normx_factor '; WRITE ( 14 ) cross_normx_factor
	275	WRITE ( 14 ) 'cross_normy_factor '; WRITE ( 14 ) cross_normy_factor
	276	WRITE ( 14 ) 'cross_profiles '; WRITE ( 14 ) cross_profiles
	277	WRITE ( 14 ) 'cross_profile_n_coun'
	278	WRITE ( 14 ) cross_profile_number_count
	279	WRITE ( 14 ) 'cross_profile_number'; WRITE ( 14 ) cross_profile_numbers
	280	WRITE ( 14 ) 'cross_uxmax '; WRITE ( 14 ) cross_uxmax
	281	WRITE ( 14 ) 'cross_uxmax_computed'; WRITE ( 14 ) cross_uxmax_computed
	282	WRITE ( 14 ) 'cross_uxmax_normaliz'; WRITE ( 14 ) cross_uxmax_normalized
	283	WRITE ( 14 ) 'cross_uxmax_norm_com'
	284	WRITE ( 14 ) cross_uxmax_normalized_computed
	285	WRITE ( 14 ) 'cross_uxmin '; WRITE ( 14 ) cross_uxmin
	286	WRITE ( 14 ) 'cross_uxmin_computed'; WRITE ( 14 ) cross_uxmin_computed
	287	WRITE ( 14 ) 'cross_uxmin_normaliz'; WRITE ( 14 ) cross_uxmin_normalized
	288	WRITE ( 14 ) 'cross_uxmin_norm_com'
	289	WRITE ( 14 ) cross_uxmin_normalized_computed
	290	WRITE ( 14 ) 'cross_uymax '; WRITE ( 14 ) cross_uymax
	291	WRITE ( 14 ) 'cross_uymin '; WRITE ( 14 ) cross_uymin
	292	WRITE ( 14 ) 'cross_xtext '; WRITE ( 14 ) cross_xtext
	293	WRITE ( 14 ) 'dopr_crossindex '; WRITE ( 14 ) dopr_crossindex
	294	WRITE ( 14 ) 'dopr_time_count '; WRITE ( 14 ) dopr_time_count
	295	WRITE ( 14 ) 'hom_sum '; WRITE ( 14 ) hom_sum
	296	WRITE ( 14 ) 'profile_columns '; WRITE ( 14 ) profile_columns
	297	WRITE ( 14 ) 'profile_number '; WRITE ( 14 ) profile_number
	298	WRITE ( 14 ) 'profile_rows '; WRITE ( 14 ) profile_rows
	299	IF ( ALLOCATED( spectrum_x ) ) THEN
	300	WRITE ( 14 ) 'spectrum_x '; WRITE ( 14 ) spectrum_x
	301	WRITE ( 14 ) 'spectrum_y '; WRITE ( 14 ) spectrum_y
	302	ENDIF
	303
	304	!
	305	!-- Write end label. Unit 14 is closed in the main program.
	306	WRITE ( 14 ) '* end * '
	307
	308
	309	CALL cpu_log( log_point(22), 'write_3d_binary', 'stop' )
	310
	311
	312	END SUBROUTINE write_3d_binary

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