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calwake.F90 @ 3000

Last change on this file since 3000 was 3000, checked in by jyg, 7 years ago

(i) Implementation of the conditionning of the Alp
provided by the wakes: when iflag_alp_wk_cond > 0,
Alp_wk is divided by the probability that there is
a gust front within the grid cell.

New subroutine alpale_wk.F90 called by physiq.

(ii) Some changes concerning the initialization of
the variable wake_dens.

Property copyright set to
Name of program: LMDZ
Creation date: 1984
Version: LMDZ5
License: CeCILL version 2
Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
See the license file in the root directory
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 10.0 KB

Line
1
2	! $Id: calwake.F90 3000 2017-10-02 08:16:06Z jyg $
3
4	SUBROUTINE calwake(iflag_wake_tend, paprs, pplay, dtime, &
5	t, q, omgb, &
6	dt_dwn, dq_dwn, m_dwn, m_up, dt_a, dq_a, &
7	sigd, &
8	wake_deltat, wake_deltaq, wake_s, wake_dens, &
9	wake_dth, wake_h, &
10	wake_pe, wake_fip, wake_gfl, &
11	dt_wake, dq_wake, wake_k, t_x, q_x, wake_omgbdth, &
12	wake_dp_omgb, &
13	wake_dtke, wake_dqke, &
14	wake_omg, wake_dp_deltomg, &
15	wake_spread, wake_cstar, wake_d_deltat_gw, &
16	wake_ddeltat, wake_ddeltaq, wake_ds, wake_ddens)
17	! **************************************************************
18	! *
19	! CALWAKE *
20	! interface avec le schema de calcul de la poche *
21	! froide *
22	! *
23	! written by : CHERUY Frederique, 13/03/2000, 10.31.05 *
24	! modified by : ROEHRIG Romain, 01/30/2007 *
25	! **************************************************************
26
27	USE dimphy
28	USE phys_state_var_mod, ONLY: pctsrf
29	USE indice_sol_mod, ONLY: is_oce
30	USE print_control_mod, ONLY: mydebug=>debug , lunout, prt_level
31	IMPLICIT NONE
32	! ======================================================================
33	include "YOMCST.h"
34
35	! Arguments
36	! ----------
37	! Input
38	! ----
39	INTEGER, INTENT (IN) :: iflag_wake_tend
40	REAL, INTENT (IN) :: dtime
41	REAL, DIMENSION(klon, klev), INTENT (IN) :: pplay
42	REAL, DIMENSION(klon, klev+1), INTENT (IN) :: paprs
43	REAL, DIMENSION(klon, klev), INTENT (IN) :: t, q, omgb
44	REAL, DIMENSION(klon, klev), INTENT (IN) :: dt_dwn, dq_dwn
45	REAL, DIMENSION(klon, klev), INTENT (IN) :: m_up, m_dwn
46	REAL, DIMENSION(klon, klev), INTENT (IN) :: dt_a, dq_a
47	REAL, DIMENSION(klon), INTENT (IN) :: sigd
48	! Input/Output
49	! ------------
50	REAL, DIMENSION(klon, klev), INTENT (INOUT) :: wake_deltat, wake_deltaq
51	REAL, DIMENSION(klon), INTENT (INOUT) :: wake_s
52	REAL, DIMENSION(klon), INTENT (INOUT) :: wake_dens
53	! Output
54	! ------
55	REAL, DIMENSION(klon, klev), INTENT (OUT) :: dt_wake, dq_wake
56	!!jyg REAL, DIMENSION(klon), INTENT (OUT) :: wake_k
57	INTEGER, DIMENSION(klon), INTENT (OUT) :: wake_k
58	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_d_deltat_gw
59	REAL, DIMENSION(klon), INTENT (OUT) :: wake_h
60	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_dth
61	REAL, DIMENSION(klon), INTENT (OUT) :: wake_pe, wake_fip, wake_gfl
62	REAL, DIMENSION(klon, klev), INTENT (OUT) :: t_x, q_x
63	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_omgbdth, wake_dp_omgb
64	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_dtke, wake_dqke
65	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_omg, wake_dp_deltomg
66	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_spread
67	REAL, DIMENSION(klon), INTENT (OUT) :: wake_cstar
68	REAL, DIMENSION(klon, klev), INTENT (OUT) :: wake_ddeltat, wake_ddeltaq
69	REAL, DIMENSION(klon), INTENT (OUT) :: wake_ds, wake_ddens
70
71
72	! Variable internes
73	! -----------------
74	LOGICAL, SAVE :: first = .TRUE.
75	!$OMP THREADPRIVATE(first)
76	INTEGER :: i, l
77	INTEGER, DIMENSION(klon) :: znatsurf ! 0 if pctsrf(is_oce)>0.1; 1 else.
78	REAL :: aire
79	REAL, DIMENSION(klon, klev) :: p, pi
80	REAL, DIMENSION(klon, klev+1) :: ph
81	REAL, DIMENSION(klon, klev) :: omgbe
82	REAL, DIMENSION(klon, klev) :: te, qe
83	REAL, DIMENSION(klon, klev) :: dtdwn, dqdwn
84	REAL, DIMENSION(klon, klev) :: dta, dqa
85	REAL, DIMENSION(klon, klev) :: amdwn, amup
86	REAL, DIMENSION(klon, klev) :: dtw, dqw, dth
87	REAL, DIMENSION(klon, klev) :: dtls, dqls
88	REAL, DIMENSION(klon, klev) :: tx, qx
89	REAL, DIMENSION(klon) :: hw, wape, fip, gfl
90	REAL, DIMENSION(klon) :: sigmaw, wdens
91	REAL, DIMENSION(klon, klev) :: omgbdth
92	REAL, DIMENSION(klon, klev) :: dp_omgb
93	REAL, DIMENSION(klon, klev) :: dtke, dqke
94	REAL, DIMENSION(klon, klev) :: omg
95	REAL, DIMENSION(klon, klev) :: dp_deltomg, spread
96	REAL, DIMENSION(klon) :: cstar
97	REAL, DIMENSION(klon) :: sigd0
98	INTEGER, DIMENSION(klon) :: ktopw
99	REAL, DIMENSION(klon, klev) :: d_deltat_gw
100	REAL, DIMENSION(klon, klev) :: d_deltatw, d_deltaqw
101	REAL, DIMENSION(klon) :: d_sigmaw, d_wdens
102
103	REAL :: rdcp
104
105
106	IF (prt_level >= 10) THEN
107	print *, '-> calwake, wake_s input ', wake_s(1)
108	ENDIF
109
110	rdcp = 1./3.5
111
112	znatsurf(:) = 0
113	DO i = 1,klon
114	IF (pctsrf(i,is_oce) < 0.1) znatsurf(i) = 1
115	ENDDO
116
117
118	! -----------------------------------------------------------
119	! IM 290108 DO 999 i=1,klon ! a vectoriser
120	! ----------------------------------------------------------
121
122
123	DO l = 1, klev
124	DO i = 1, klon
125	p(i, l) = pplay(i, l)
126	ph(i, l) = paprs(i, l)
127	pi(i, l) = (pplay(i,l)/100000.)**rdcp
128
129	te(i, l) = t(i, l)
130	qe(i, l) = q(i, l)
131	omgbe(i, l) = omgb(i, l)
132
133	dtdwn(i, l) = dt_dwn(i, l)
134	dqdwn(i, l) = dq_dwn(i, l)
135	dta(i, l) = dt_a(i, l)
136	dqa(i, l) = dq_a(i, l)
137	END DO
138	END DO
139
140	!----------------------------------------------------------------
141	! Initialize tendencies to zero
142	!----------------------------------------------------------------
143	dtls(:,:) = 0.
144	dqls(:,:) = 0.
145	d_deltat_gw(:,:) = 0.
146	d_deltatw(:,:) = 0.
147	d_deltaqw(:,:) = 0.
148	d_sigmaw(:) = 0.
149	d_wdens(:) = 0.
150	!
151
152	DO i = 1, klon
153	sigd0(i) = sigd(i)
154	END DO
155	! print*, 'sigd0,sigd', sigd0, sigd(i)
156	DO i = 1, klon
157	ph(i, klev+1) = 0.
158	END DO
159
160	!!jyg! DO i = 1, klon
161	!!jyg! ktopw(i) = NINT(wake_k(i))
162	!!jyg! END DO
163
164	DO i = 1, klon
165	hw(i) = wake_h(i)
166	END DO
167	!
168	! Make a copy of state variables
169	DO l = 1, klev
170	DO i = 1, klon
171	dtw(i, l) = wake_deltat(i, l)
172	dqw(i, l) = wake_deltaq(i, l)
173	END DO
174	END DO
175
176	DO i = 1, klon
177	sigmaw(i) = wake_s(i)
178	END DO
179
180	DO i = 1, klon
181	wdens(i) = max(0., wake_dens(i))
182	END DO
183
184	! fkc les flux de masses sont evalues aux niveaux et valent 0 a la surface
185	! fkc on veut le flux de masse au milieu des couches
186
187	DO l = 1, klev - 1
188	DO i = 1, klon
189	amdwn(i, l) = 0.5*(m_dwn(i,l)+m_dwn(i,l+1))
190	amdwn(i, l) = (m_dwn(i,l+1))
191	END DO
192	END DO
193
194	! au sommet le flux de masse est nul
195
196	DO i = 1, klon
197	amdwn(i, klev) = 0.5*m_dwn(i, klev)
198	END DO
199
200	DO l = 1, klev
201	DO i = 1, klon
202	amup(i, l) = m_up(i, l)
203	END DO
204	END DO
205
206	CALL wake(znatsurf, p, ph, pi, dtime, &
207	te, qe, omgbe, &
208	dtdwn, dqdwn, amdwn, amup, dta, dqa, &
209	sigd0, &
210	dtw, dqw, sigmaw, wdens, & ! state variables
211	dth, hw, wape, fip, gfl, &
212	dtls, dqls, ktopw, omgbdth, dp_omgb, tx, qx, &
213	dtke, dqke, omg, dp_deltomg, spread, cstar, &
214	d_deltat_gw, &
215	d_deltatw, d_deltaqw, d_sigmaw, d_wdens) ! tendencies
216
217	!
218	DO l = 1, klev
219	DO i = 1, klon
220	IF (ktopw(i)>0) THEN
221	wake_d_deltat_gw(i, l) = d_deltat_gw(i, l)
222	wake_omgbdth(i, l) = omgbdth(i, l)
223	wake_dp_omgb(i, l) = dp_omgb(i, l)
224	wake_dtke(i, l) = dtke(i, l)
225	wake_dqke(i, l) = dqke(i, l)
226	wake_omg(i, l) = omg(i, l)
227	wake_dp_deltomg(i, l) = dp_deltomg(i, l)
228	wake_spread(i, l) = spread(i, l)
229	wake_dth(i, l) = dth(i, l)
230	dt_wake(i, l) = dtls(i, l)*dtime ! derivative -> tendency
231	dq_wake(i, l) = dqls(i, l)*dtime ! derivative -> tendency
232	t_x(i, l) = tx(i, l)
233	q_x(i, l) = qx(i, l)
234	ELSE
235	wake_d_deltat_gw(i, l) = 0.
236	wake_omgbdth(i, l) = 0.
237	wake_dp_omgb(i, l) = 0.
238	wake_dtke(i, l) = 0.
239	wake_dqke(i, l) = 0.
240	wake_omg(i, l) = 0.
241	wake_dp_deltomg(i, l) = 0.
242	wake_spread(i, l) = 0.
243	wake_dth(i, l) = 0.
244	dt_wake(i, l) = 0.
245	dq_wake(i, l) = 0.
246	t_x(i, l) = te(i, l)
247	q_x(i, l) = qe(i, l)
248	END IF
249	END DO
250	END DO
251
252	DO i = 1, klon
253	wake_h(i) = hw(i)
254	wake_pe(i) = wape(i)
255	wake_fip(i) = fip(i)
256	wake_gfl(i) = gfl(i)
257	wake_k(i) = ktopw(i)
258	wake_cstar(i) = cstar(i)
259	END DO
260
261	! Tendencies of state variables
262	DO l = 1, klev
263	DO i = 1, klon
264	IF (ktopw(i)>0) THEN
265	wake_ddeltat(i, l) = d_deltatw(i, l)*dtime
266	wake_ddeltaq(i, l) = d_deltaqw(i, l)*dtime
267	ELSE
268	wake_ddeltat(i, l) = -wake_deltat(i, l)
269	wake_ddeltaq(i, l) = -wake_deltaq(i, l)
270	END IF
271	END DO
272	END DO
273	DO i = 1, klon
274	IF (ktopw(i)>0) THEN
275	wake_ds(i) = d_sigmaw(i)*dtime
276	wake_ddens(i) = d_wdens(i)*dtime
277	ELSE
278	wake_ds(i) = -wake_s(i)
279	wake_ddens(i)= -wake_dens(i)
280	END IF
281	END DO
282	!
283
284	!jyg<
285	IF (iflag_wake_tend .EQ. 0) THEN
286	! Update State variables
287	DO l = 1, klev
288	DO i = 1, klon
289	IF (ktopw(i)>0) THEN
290	wake_deltat(i, l) = dtw(i, l)
291	wake_deltaq(i, l) = dqw(i, l)
292	ELSE
293	wake_deltat(i, l) = 0.
294	wake_deltaq(i, l) = 0.
295	END IF
296	END DO
297	END DO
298	DO i = 1, klon
299	wake_s(i) = sigmaw(i)
300	wake_dens(i) = wdens(i)
301	END DO
302	ENDIF ! (iflag_wake_tend .EQ. 0)
303	!
304	IF (first) THEN
305	DO i = 1,klon
306	IF (wake_dens(i) < -1.) THEN
307	wake_dens(i) = wdens(i)
308	ENDIF
309	ENDDO
310	first=.false.
311	ENDIF ! (first)
312	!>jyg
313
314	RETURN
315	END SUBROUTINE calwake
316

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