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source: palm/trunk/SOURCE/subsidence_mod.f90 @ 1981

Last change on this file since 1981 was 1863, checked in by hoffmann, 9 years ago
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[1850]	1	!> @file subsidence_mod.f90
[1036]	2	!--------------------------------------------------------------------------------!
	3	! This file is part of PALM.
	4	!
	5	! PALM is free software: you can redistribute it and/or modify it under the terms
	6	! of the GNU General Public License as published by the Free Software Foundation,
	7	! either version 3 of the License, or (at your option) any later version.
	8	!
	9	! PALM is distributed in the hope that it will be useful, but WITHOUT ANY
	10	! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
	11	! A PARTICULAR PURPOSE. See the GNU General Public License for more details.
	12	!
	13	! You should have received a copy of the GNU General Public License along with
	14	! PALM. If not, see <http://www.gnu.org/licenses/>.
	15	!
[1818]	16	! Copyright 1997-2016 Leibniz Universitaet Hannover
[1036]	17	!--------------------------------------------------------------------------------!
	18	!
[411]	19	! Current revisions:
	20	! -----------------
[1863]	21	!
[1683]	22	!
[1383]	23	! Former revisions:
	24	! -----------------
	25	! $Id: subsidence_mod.f90 1863 2016-04-14 09:08:44Z suehring $
	26	!
[1863]	27	! 1862 2016-04-14 09:07:42Z hoffmann
	28	! Bugfix: In case of vector machine optimized model runs, sums_ls_l should not
	29	! be addressed if large_scale_forcing is false because sums_ls_l is not
	30	! allocated.
	31	!
[1851]	32	! 1850 2016-04-08 13:29:27Z maronga
	33	! Module renamed
	34	!
[1730]	35	! 1729 2015-11-20 11:01:48Z gronemeier
	36	! Bugfix: shifting of initial profiles only once each time step
	37	!
[1683]	38	! 1682 2015-10-07 23:56:08Z knoop
	39	! Code annotations made doxygen readable
	40	!
[1490]	41	! 1489 2014-10-30 08:09:12Z raasch
	42	! bugfix: sums_ls_l can only be used if large_scale_forcing is switched on
	43	!
[1383]	44	! 1382 2014-04-30 12:15:41Z boeske
[1382]	45	! Changed the weighting factor that is used in the summation of subsidence
	46	! tendencies for profile data output from weight_pres to weight_substep
	47	! added Neumann boundary conditions for profile data output of subsidence terms
	48	! at nzt+1
[1321]	49	!
[1381]	50	! 1380 2014-04-28 12:40:45Z heinze
	51	! Shifting only necessary in case of scalar Rayleigh damping
	52	!
[1366]	53	! 1365 2014-04-22 15:03:56Z boeske
	54	! Summation of subsidence tendencies for data output added
	55	! +ls_index, sums_ls_l, tmp_tend
	56	!
[1354]	57	! 1353 2014-04-08 15:21:23Z heinze
	58	! REAL constants provided with KIND-attribute
	59	!
[1321]	60	! 1320 2014-03-20 08:40:49Z raasch
[1320]	61	! ONLY-attribute added to USE-statements,
	62	! kind-parameters added to all INTEGER and REAL declaration statements,
	63	! kinds are defined in new module kinds,
	64	! old module precision_kind is removed,
	65	! revision history before 2012 removed,
	66	! comment fields (!:) to be used for variable explanations added to
	67	! all variable declaration statements
[411]	68	!
[1037]	69	! 1036 2012-10-22 13:43:42Z raasch
	70	! code put under GPL (PALM 3.9)
	71	!
[464]	72	! Revision 3.7 2009-12-11 14:15:58Z heinze
	73	! Initial revision
[411]	74	!
	75	! Description:
	76	! ------------
[1682]	77	!> Impact of large-scale subsidence or ascent as tendency term for use
	78	!> in the prognostic equation of potential temperature. This enables the
	79	!> construction of a constant boundary layer height z_i with time.
[411]	80	!-----------------------------------------------------------------------------!
[1682]	81	MODULE subsidence_mod
	82
[411]	83
	84
	85	IMPLICIT NONE
	86
	87	PRIVATE
	88	PUBLIC init_w_subsidence, subsidence
	89
	90	INTERFACE init_w_subsidence
	91	MODULE PROCEDURE init_w_subsidence
	92	END INTERFACE init_w_subsidence
	93
	94	INTERFACE subsidence
	95	MODULE PROCEDURE subsidence
	96	MODULE PROCEDURE subsidence_ij
	97	END INTERFACE subsidence
	98
	99	CONTAINS
	100
[1682]	101	!------------------------------------------------------------------------------!
	102	! Description:
	103	! ------------
	104	!> @todo Missing subroutine description.
	105	!------------------------------------------------------------------------------!
[411]	106	SUBROUTINE init_w_subsidence
	107
[1320]	108	USE arrays_3d, &
	109	ONLY: dzu, w_subs, zu
[411]	110
[1320]	111	USE control_parameters, &
	112	ONLY: message_string, ocean, subs_vertical_gradient, &
	113	subs_vertical_gradient_level, subs_vertical_gradient_level_i
	114
	115	USE indices, &
	116	ONLY: nzb, nzt
	117
	118	USE kinds
	119
[411]	120	IMPLICIT NONE
	121
[1682]	122	INTEGER(iwp) :: i !<
	123	INTEGER(iwp) :: k !<
[411]	124
[1682]	125	REAL(wp) :: gradient !<
	126	REAL(wp) :: ws_surface !<
[1320]	127
[1862]	128	IF ( .NOT. ALLOCATED( w_subs ) ) THEN
[411]	129	ALLOCATE( w_subs(nzb:nzt+1) )
[1353]	130	w_subs = 0.0_wp
[411]	131	ENDIF
	132
[1365]	133	IF ( ocean ) THEN
[411]	134	message_string = 'Applying large scale vertical motion is not ' // &
	135	'allowed for ocean runs'
	136	CALL message( 'init_w_subsidence', 'PA0324', 2, 2, 0, 6, 0 )
	137	ENDIF
	138
	139	!
	140	!-- Compute the profile of the subsidence/ascent velocity
	141	!-- using the given gradients
	142	i = 1
[1353]	143	gradient = 0.0_wp
	144	ws_surface = 0.0_wp
[411]	145
	146
[580]	147	subs_vertical_gradient_level_i(1) = 0
[411]	148	DO k = 1, nzt+1
[1365]	149	IF ( i < 11 ) THEN
[580]	150	IF ( subs_vertical_gradient_level(i) < zu(k) .AND. &
[1353]	151	subs_vertical_gradient_level(i) >= 0.0_wp ) THEN
	152	gradient = subs_vertical_gradient(i) / 100.0_wp
[580]	153	subs_vertical_gradient_level_i(i) = k - 1
[411]	154	i = i + 1
	155	ENDIF
	156	ENDIF
[1353]	157	IF ( gradient /= 0.0_wp ) THEN
[411]	158	IF ( k /= 1 ) THEN
	159	w_subs(k) = w_subs(k-1) + dzu(k) * gradient
	160	ELSE
[1353]	161	w_subs(k) = ws_surface + 0.5_wp * dzu(k) * gradient
[411]	162	ENDIF
	163	ELSE
	164	w_subs(k) = w_subs(k-1)
	165	ENDIF
	166	ENDDO
	167
	168	!
	169	!-- In case of no given gradients for the subsidence/ascent velocity,
	170	!-- choose zero gradient
[1353]	171	IF ( subs_vertical_gradient_level(1) == -9999999.9_wp ) THEN
	172	subs_vertical_gradient_level(1) = 0.0_wp
[411]	173	ENDIF
	174
	175	END SUBROUTINE init_w_subsidence
	176
	177
[1682]	178	!------------------------------------------------------------------------------!
	179	! Description:
	180	! ------------
	181	!> @todo Missing subroutine description.
	182	!------------------------------------------------------------------------------!
[1365]	183	SUBROUTINE subsidence( tendency, var, var_init, ls_index )
[411]	184
[1320]	185	USE arrays_3d, &
	186	ONLY: ddzu, w_subs
[411]	187
[1320]	188	USE control_parameters, &
[1380]	189	ONLY: dt_3d, intermediate_timestep_count, large_scale_forcing, &
	190	scalar_rayleigh_damping
[1320]	191
	192	USE indices, &
	193	ONLY: nxl, nxlg, nxr, nxrg, nyn, nyng, nys, nysg, nzb, nzb_s_inner,&
	194	nzt
	195
	196	USE kinds
	197
[1365]	198	USE statistics, &
[1382]	199	ONLY: sums_ls_l, weight_substep
[1365]	200
[411]	201	IMPLICIT NONE
	202
[1682]	203	INTEGER(iwp) :: i !<
	204	INTEGER(iwp) :: j !<
	205	INTEGER(iwp) :: k !<
	206	INTEGER(iwp) :: ls_index !<
[411]	207
[1682]	208	REAL(wp) :: tmp_tend !<
	209	REAL(wp) :: tmp_grad !<
[411]	210
[1682]	211	REAL(wp), DIMENSION(nzb:nzt+1,nysg:nyng,nxlg:nxrg) :: var !<
	212	REAL(wp), DIMENSION(nzb:nzt+1,nysg:nyng,nxlg:nxrg) :: tendency !<
	213	REAL(wp), DIMENSION(nzb:nzt+1) :: var_init !<
	214	REAL(wp), DIMENSION(nzb:nzt+1) :: var_mod !<
[411]	215
[464]	216	var_mod = var_init
[411]	217
	218	!
	219	!-- Influence of w_subsidence on the current tendency term
	220	DO i = nxl, nxr
	221	DO j = nys, nyn
[1382]	222
[411]	223	DO k = nzb_s_inner(j,i)+1, nzt
[1365]	224	IF ( w_subs(k) < 0.0_wp ) THEN ! large-scale subsidence
	225	tmp_tend = - w_subs(k) * &
	226	( var(k+1,j,i) - var(k,j,i) ) * ddzu(k+1)
	227	ELSE ! large-scale ascent
	228	tmp_tend = - w_subs(k) * &
	229	( var(k,j,i) - var(k-1,j,i) ) * ddzu(k)
[411]	230	ENDIF
[1365]	231
	232	tendency(k,j,i) = tendency(k,j,i) + tmp_tend
	233
	234	IF ( large_scale_forcing ) THEN
	235	sums_ls_l(k,ls_index) = sums_ls_l(k,ls_index) + tmp_tend &
[1382]	236	* weight_substep(intermediate_timestep_count)
[1365]	237	ENDIF
[411]	238	ENDDO
[1382]	239
[1862]	240	IF ( large_scale_forcing ) THEN
	241	sums_ls_l(nzt+1,ls_index) = sums_ls_l(nzt,ls_index)
	242	ENDIF
[1382]	243
[411]	244	ENDDO
	245	ENDDO
	246
	247	!
	248	!-- Shifting of the initial profile is especially necessary with Rayleigh
	249	!-- damping switched on
[1729]	250	IF ( scalar_rayleigh_damping .AND. &
	251	intermediate_timestep_count == 1 ) THEN
[1380]	252	DO k = nzb, nzt
	253	IF ( w_subs(k) < 0.0_wp ) THEN ! large-scale subsidence
	254	var_mod(k) = var_init(k) - dt_3d * w_subs(k) * &
	255	( var_init(k+1) - var_init(k) ) * ddzu(k+1)
	256	ENDIF
	257	ENDDO
[411]	258	!
[1380]	259	!-- At the upper boundary, the initial profile is shifted with aid of
	260	!-- the gradient tmp_grad. (This is ok if the gradients are linear.)
	261	IF ( w_subs(nzt) < 0.0_wp ) THEN
	262	tmp_grad = ( var_init(nzt+1) - var_init(nzt) ) * ddzu(nzt+1)
	263	var_mod(nzt+1) = var_init(nzt+1) - &
	264	dt_3d * w_subs(nzt+1) * tmp_grad
	265	ENDIF
[411]	266
	267
[1380]	268	DO k = nzt+1, nzb+1, -1
	269	IF ( w_subs(k) >= 0.0_wp ) THEN ! large-scale ascent
	270	var_mod(k) = var_init(k) - dt_3d * w_subs(k) * &
	271	( var_init(k) - var_init(k-1) ) * ddzu(k)
	272	ENDIF
	273	ENDDO
	274	!
	275	!-- At the lower boundary shifting is not necessary because the
	276	!-- subsidence velocity w_subs(nzb) vanishes.
	277	IF ( w_subs(nzb+1) >= 0.0_wp ) THEN
	278	var_mod(nzb) = var_init(nzb)
[411]	279	ENDIF
[1380]	280
	281	var_init = var_mod
[411]	282	ENDIF
	283
	284
	285	END SUBROUTINE subsidence
	286
[1682]	287	!------------------------------------------------------------------------------!
	288	! Description:
	289	! ------------
	290	!> @todo Missing subroutine description.
	291	!------------------------------------------------------------------------------!
[1365]	292	SUBROUTINE subsidence_ij( i, j, tendency, var, var_init, ls_index )
[411]	293
[1320]	294	USE arrays_3d, &
	295	ONLY: ddzu, w_subs
[411]	296
[1320]	297	USE control_parameters, &
[1380]	298	ONLY: dt_3d, intermediate_timestep_count, large_scale_forcing, &
	299	scalar_rayleigh_damping
[1320]	300
	301	USE indices, &
	302	ONLY: nxl, nxlg, nxrg, nyng, nys, nysg, nzb_s_inner, nzb, nzt
	303
	304	USE kinds
	305
[1365]	306	USE statistics, &
[1382]	307	ONLY: sums_ls_l, weight_substep
[1365]	308
[411]	309	IMPLICIT NONE
	310
[1682]	311	INTEGER(iwp) :: i !<
	312	INTEGER(iwp) :: j !<
	313	INTEGER(iwp) :: k !<
	314	INTEGER(iwp) :: ls_index !<
[411]	315
[1682]	316	REAL(wp) :: tmp_tend !<
	317	REAL(wp) :: tmp_grad !<
[411]	318
[1682]	319	REAL(wp), DIMENSION(nzb:nzt+1,nysg:nyng,nxlg:nxrg) :: var !<
	320	REAL(wp), DIMENSION(nzb:nzt+1,nysg:nyng,nxlg:nxrg) :: tendency !<
	321	REAL(wp), DIMENSION(nzb:nzt+1) :: var_init !<
	322	REAL(wp), DIMENSION(nzb:nzt+1) :: var_mod !<
[411]	323
[464]	324	var_mod = var_init
[411]	325
	326	!
	327	!-- Influence of w_subsidence on the current tendency term
	328	DO k = nzb_s_inner(j,i)+1, nzt
[1365]	329	IF ( w_subs(k) < 0.0_wp ) THEN ! large-scale subsidence
	330	tmp_tend = - w_subs(k) * ( var(k+1,j,i) - var(k,j,i) ) * ddzu(k+1)
	331	ELSE ! large-scale ascent
	332	tmp_tend = - w_subs(k) * ( var(k,j,i) - var(k-1,j,i) ) * ddzu(k)
[411]	333	ENDIF
[1365]	334
	335	tendency(k,j,i) = tendency(k,j,i) + tmp_tend
	336
	337	IF ( large_scale_forcing ) THEN
	338	sums_ls_l(k,ls_index) = sums_ls_l(k,ls_index) + tmp_tend &
[1382]	339	* weight_substep(intermediate_timestep_count)
[1365]	340	ENDIF
[411]	341	ENDDO
	342
[1489]	343	IF ( large_scale_forcing ) THEN
	344	sums_ls_l(nzt+1,ls_index) = sums_ls_l(nzt,ls_index)
	345	ENDIF
[411]	346
	347	!
	348	!-- Shifting of the initial profile is especially necessary with Rayleigh
	349	!-- damping switched on
[1729]	350	IF ( scalar_rayleigh_damping .AND. &
	351	intermediate_timestep_count == 1 ) THEN
[1380]	352	IF ( i == nxl .AND. j == nys ) THEN ! shifting only once per PE
[411]	353
[1380]	354	DO k = nzb, nzt
	355	IF ( w_subs(k) < 0.0_wp ) THEN ! large-scale subsidence
	356	var_mod(k) = var_init(k) - dt_3d * w_subs(k) * &
	357	( var_init(k+1) - var_init(k) ) * ddzu(k+1)
	358	ENDIF
	359	ENDDO
	360	!
	361	!-- At the upper boundary, the initial profile is shifted with aid of
	362	!-- the gradient tmp_grad. (This is ok if the gradients are linear.)
	363	IF ( w_subs(nzt) < 0.0_wp ) THEN
	364	tmp_grad = ( var_init(nzt+1) - var_init(nzt) ) * ddzu(nzt+1)
	365	var_mod(nzt+1) = var_init(nzt+1) - &
	366	dt_3d * w_subs(nzt+1) * tmp_grad
[411]	367	ENDIF
	368
	369
[1380]	370	DO k = nzt+1, nzb+1, -1
	371	IF ( w_subs(k) >= 0.0_wp ) THEN ! large-scale ascent
	372	var_mod(k) = var_init(k) - dt_3d * w_subs(k) * &
	373	( var_init(k) - var_init(k-1) ) * ddzu(k)
	374	ENDIF
	375	ENDDO
	376	!
	377	!-- At the lower boundary shifting is not necessary because the
	378	!-- subsidence velocity w_subs(nzb) vanishes.
	379	IF ( w_subs(nzb+1) >= 0.0_wp ) THEN
	380	var_mod(nzb) = var_init(nzb)
[411]	381	ENDIF
	382
[1380]	383	var_init = var_mod
[411]	384
[1380]	385	ENDIF
[411]	386	ENDIF
	387
	388	END SUBROUTINE subsidence_ij
	389
	390
	391	END MODULE subsidence_mod

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