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sucst.F90 @ 3930

Last change on this file since 3930 was 2089, checked in by Laurent Fairhead, 10 years ago

Inclusion de la physique de MAR

Integration of MAR physics

File size: 8.9 KB

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1	SUBROUTINE SUCST(KULOUT,KDAT,KSSS,KPRINTLEV)
2
3	!**** SUCST - Routine to initialize the constants of the model.
4
5	! Purpose.
6	! --------
7	! Initialize and print the common YOMCST + initialize
8	! date and time of YOMRIP.
9
10	!** Interface.
11	! ----------
12	! CALL *SUCST (..)
13
14	! Explicit arguments :
15	! --------------------
16
17	! KULOUT - logical unit for the output
18	! KDAT - date in the form AAAAMMDD
19	! KSSS - number of seconds in the day
20	! KPRINTLEV - printing level
21
22	! Implicit arguments :
23	! --------------------
24	! COMMON YOMCST
25	! COMMON YOMRIP
26
27	! Method.
28	! -------
29	! See documentation
30
31	! Externals.
32	! ----------
33
34	! Reference.
35	! ----------
36	! ECMWF Research Department documentation of the IFS
37
38	! Author.
39	! -------
40	! Mats Hamrud and Philippe Courtier ECMWF
41
42	! Modifications.
43	! --------------
44	! Original : 87-10-15
45	! Additions : 90-07-30 (J.-F. Geleyn)
46	! 91-11-15 (M. Deque)
47	! 96-08-12 M.Hamrud - Reduce printing
48	! ------------------------------------------------------------------
49
50	#include "tsmbkind.h"
51
52	USE YOMCST , ONLY : RPI ,RCLUM ,RHPLA ,RKBOL ,&
53	&RNAVO ,RDAY ,REA ,REPSM ,RSIYEA ,&
54	&RSIDAY ,ROMEGA ,RA ,RG ,R1SA ,&
55	&RSIGMA ,RI0 ,R ,RMD ,RMV ,&
56	&RMO3 ,RD ,RV ,RCPD ,RCPV ,&
57	&RCVD ,RCVV ,RKAPPA ,RETV ,RCW ,&
58	&RCS ,RLVTT ,RLSTT ,RLVZER ,RLSZER ,&
59	&RLMLT ,RTT ,RATM ,RDT ,RESTT ,&
60	&RALPW ,RBETW ,RGAMW ,RALPS ,RBETS ,&
61	&RGAMS ,RALPD ,RBETD ,RGAMD
62	USE YOMRIP , ONLY : RTIMST ,RTIMTR
63
64	IMPLICIT NONE
65
66
67	! DUMMY INTEGER SCALARS
68	INTEGER_M :: KDAT
69	INTEGER_M :: KPRINTLEV
70	INTEGER_M :: KSSS
71	INTEGER_M :: KULOUT
72
73
74	! LOCAL INTEGER SCALARS
75	INTEGER_M :: IA, ID, IDAT, IM, ISSS, J
76
77	! LOCAL REAL SCALARS
78	REAL_B :: ZDE, ZET, ZJU, ZRS, ZRSREL, ZTETA, ZTI
79
80
81	#include "fctast.h"
82	#include "fcttrm.h"
83	#include "fcttim.h"
84	! -----------------------------------------------------------------
85
86	!* 1. DEFINE FUNDAMENTAL CONSTANTS.
87	! -----------------------------
88
89
90	RPI=_TWO_*ASIN(_ONE_)
91	RCLUM=299792458._JPRB
92	RHPLA=6.6260755E-34_JPRB
93	RKBOL=1.380658E-23_JPRB
94	RNAVO=6.0221367E+23_JPRB
95
96	! ------------------------------------------------------------------
97
98	!* 2. DEFINE ASTRONOMICAL CONSTANTS.
99	! ------------------------------
100
101	RDAY=86400._JPRB
102	REA=149597870000._JPRB
103	REPSM=0.409093_JPRB
104
105	RSIYEA=365.25_JPRBRDAY_TWO_*RPI/6.283076_JPRB
106	RSIDAY=RDAY/(_ONE_+RDAY/RSIYEA)
107	ROMEGA=_TWO_*RPI/RSIDAY
108
109	IDAT=KDAT
110	ISSS=KSSS
111	ID=NDD(IDAT)
112	IM=NMM(IDAT)
113	IA=NCCAA(IDAT)
114	ZJU=RJUDAT(IA,IM,ID)
115	ZTI=RTIME(IA,IM,ID,ISSS)
116	RTIMST=ZTI
117	RTIMTR=ZTI
118	ZTETA=RTETA(ZTI)
119	ZRS=RRS(ZTETA)
120	ZDE=RDS(ZTETA)
121	ZET=RET(ZTETA)
122	ZRSREL=ZRS/REA
123
124	! ------------------------------------------------------------------
125
126	!* 3. DEFINE GEOIDE.
127	! --------------
128
129	RG=9.80665_JPRB
130	RA=6371229._JPRB
131	R1SA=REAL(_ONE_/REAL(RA,KIND(_ONE_)),KIND(R1SA))
132
133	! ------------------------------------------------------------------
134
135	!* 4. DEFINE RADIATION CONSTANTS.
136	! ---------------------------
137
138	RSIGMA=_TWO_ * RPI*5 RKBOL*4 /(15._JPRB RCLUM*2 RHPLA**3)
139	RI0=1370._JPRB
140
141	! ------------------------------------------------------------------
142
143	!* 5. DEFINE THERMODYNAMIC CONSTANTS, GAS PHASE.
144	! ------------------------------------------
145
146	R=RNAVO*RKBOL
147	RMD=28.9644_JPRB
148	RMV=18.0153_JPRB
149	RMO3=47.9942_JPRB
150	RD=1000._JPRB*R/RMD
151	RV=1000._JPRB*R/RMV
152	RCPD=3.5_JPRB*RD
153	RCVD=RCPD-RD
154	RCPV=4._JPRB *RV
155	RCVV=RCPV-RV
156	RKAPPA=RD/RCPD
157	RETV=RV/RD-_ONE_
158
159	! ------------------------------------------------------------------
160
161	!* 6. DEFINE THERMODYNAMIC CONSTANTS, LIQUID PHASE.
162	! ---------------------------------------------
163
164	RCW=4218._JPRB
165
166	! ------------------------------------------------------------------
167
168	!* 7. DEFINE THERMODYNAMIC CONSTANTS, SOLID PHASE.
169	! --------------------------------------------
170
171	RCS=2106._JPRB
172
173	! ------------------------------------------------------------------
174
175	!* 8. DEFINE THERMODYNAMIC CONSTANTS, TRANSITION OF PHASE.
176	! ----------------------------------------------------
177
178	RTT=273.16_JPRB
179	RDT=11.82_JPRB
180	RLVTT=2.5008E+6_JPRB
181	RLSTT=2.8345E+6_JPRB
182	RLVZER=RLVTT+RTT*(RCW-RCPV)
183	RLSZER=RLSTT+RTT*(RCS-RCPV)
184	RLMLT=RLSTT-RLVTT
185	RATM=100000._JPRB
186
187	! ------------------------------------------------------------------
188
189	!* 9. SATURATED VAPOUR PRESSURE.
190	! --------------------------
191
192	RESTT=611.14_JPRB
193	RGAMW=(RCW-RCPV)/RV
194	RBETW=RLVTT/RV+RGAMW*RTT
195	RALPW=LOG(RESTT)+RBETW/RTT+RGAMW*LOG(RTT)
196	RGAMS=(RCS-RCPV)/RV
197	RBETS=RLSTT/RV+RGAMS*RTT
198	RALPS=LOG(RESTT)+RBETS/RTT+RGAMS*LOG(RTT)
199	RGAMD=RGAMS-RGAMW
200	RBETD=RBETS-RBETW
201	RALPD=RALPS-RALPW
202
203	! ------------------------------------------------------------------
204
205	!* 10. PRINTS
206
207	IF (KPRINTLEV >= 1) THEN
208	WRITE(KULOUT,'(''0* Constants of the ICM *'')')
209	WRITE(KULOUT,'('' * Fundamental constants *'')')
210	WRITE(KULOUT,'('' PI = '',E13.7,'' -'')')RPI
211	WRITE(KULOUT,'('' c = '',E13.7,''m s-1'')')RCLUM
212	WRITE(KULOUT,'('' h = '',E13.7,''J s'')')RHPLA
213	WRITE(KULOUT,'('' K = '',E13.7,''J K-1'')')RKBOL
214	WRITE(KULOUT,'('' N = '',E13.7,''mol-1'')')RNAVO
215	WRITE(KULOUT,'('' * Astronomical constants *'')')
216	WRITE(KULOUT,'('' day = '',E13.7,'' s'')')RDAY
217	WRITE(KULOUT,'('' half g. axis = '',E13.7,'' m'')')REA
218	WRITE(KULOUT,'('' mean anomaly = '',E13.7,'' -'')')REPSM
219	WRITE(KULOUT,'('' sideral year = '',E13.7,'' s'')')RSIYEA
220	WRITE(KULOUT,'('' sideral day = '',E13.7,'' s'')')RSIDAY
221	WRITE(KULOUT,'('' omega = '',E13.7,'' s-1'')')ROMEGA
222
223	WRITE(KULOUT,'('' The initial date of the run is :'')')
224	WRITE(KULOUT,'(1X,I8,1X,I5,5X,I4,1X,I2,1X,I2)')IDAT,ISSS,IA,IM,ID
225	WRITE(KULOUT,'('' The Julian date is : '',F11.2)') ZJU
226	WRITE(KULOUT,'('' Time of the model : '',F15.2,'' s'')')ZTI
227	WRITE(KULOUT,'('' Distance Earth-Sun : '',E13.7,'' m'')')ZRS
228	WRITE(KULOUT,'('' Relative Dist. E-S : '',E13.7,'' m'')')ZRSREL
229	WRITE(KULOUT,'('' Declination : '',F12.5)') ZDE
230	WRITE(KULOUT,'('' Eq. of time : '',F12.5,'' s'')')ZET
231	WRITE(KULOUT,'('' * Geoide *'')')
232	WRITE(KULOUT,'('' Gravity = '',E13.7,'' m s-2'')')RG
233	WRITE(KULOUT,'('' Earth radius = '',E13.7,'' m'')')RA
234	WRITE(KULOUT,'('' Inverse E.R. = '',E13.7,'' m'')')R1SA
235	WRITE(KULOUT,'('' * Radiation *'')')
236	WRITE(KULOUT,'('' Stefan-Bol. = '',E13.7,'' W m-2 K-4'')') RSIGMA
237	WRITE(KULOUT,'('' Solar const. = '',E13.7,'' W m-2'')')RI0
238	WRITE(KULOUT,'('' * Thermodynamic, gas *'')')
239	WRITE(KULOUT,'('' Perfect gas = '',e13.7)') R
240	WRITE(KULOUT,'('' Dry air mass = '',e13.7)') RMD
241	WRITE(KULOUT,'('' Vapour mass = '',e13.7)') RMV
242	WRITE(KULOUT,'('' Ozone mass = '',e13.7)') RMO3
243	WRITE(KULOUT,'('' Dry air cst. = '',e13.7)') RD
244	WRITE(KULOUT,'('' Vapour cst. = '',e13.7)') RV
245	WRITE(KULOUT,'('' Cpd = '',e13.7)') RCPD
246	WRITE(KULOUT,'('' Cvd = '',e13.7)') RCVD
247	WRITE(KULOUT,'('' Cpv = '',e13.7)') RCPV
248	WRITE(KULOUT,'('' Cvv = '',e13.7)') RCVV
249	WRITE(KULOUT,'('' Rd/Cpd = '',e13.7)') RKAPPA
250	WRITE(KULOUT,'('' Rv/Rd-1 = '',e13.7)') RETV
251	WRITE(KULOUT,'('' * Thermodynamic, liquid *'')')
252	WRITE(KULOUT,'('' Cw = '',E13.7)') RCW
253	WRITE(KULOUT,'('' * thermodynamic, solid *'')')
254	WRITE(KULOUT,'('' Cs = '',E13.7)') RCS
255	WRITE(KULOUT,'('' * Thermodynamic, trans. *'')')
256	WRITE(KULOUT,'('' Fusion point = '',E13.7)') RTT
257	WRITE(KULOUT,'('' RTT-Tx(ew-ei) = '',E13.7)') RDT
258	WRITE(KULOUT,'('' RLvTt = '',E13.7)') RLVTT
259	WRITE(KULOUT,'('' RLsTt = '',E13.7)') RLSTT
260	WRITE(KULOUT,'('' RLv0 = '',E13.7)') RLVZER
261	WRITE(KULOUT,'('' RLs0 = '',E13.7)') RLSZER
262	WRITE(KULOUT,'('' RLMlt = '',E13.7)') RLMLT
263	WRITE(KULOUT,'('' Normal press. = '',E13.7)') RATM
264	WRITE(KULOUT,'('' Latent heat : '')')
265	WRITE(KULOUT,'(10(1X,E10.4))') (10._JPRB*J,J=-4,4)
266	WRITE(KULOUT,'(10(1X,E10.4))') (RLV(RTT+10._JPRB*J),J=-4,4)
267	WRITE(KULOUT,'(10(1X,E10.4))') (RLS(RTT+10._JPRB*J),J=-4,4)
268	WRITE(KULOUT,'('' * Thermodynamic, satur. *'')')
269	WRITE(KULOUT,'('' Fusion point = '',E13.7)') RTT
270	WRITE(KULOUT,'('' es(Tt) = '',e13.7)') RESTT
271	WRITE(KULOUT,'('' es(T) : '')')
272	WRITE(KULOUT,'(10(1X,E10.4))') (10._JPRB*J,J=-4,4)
273	WRITE(KULOUT,'(10(1X,E10.4))') (ESW(RTT+10._JPRB*J),J=-4,4)
274	WRITE(KULOUT,'(10(1X,E10.4))') (ESS(RTT+10._JPRB*J),J=-4,4)
275	WRITE(KULOUT,'(10(1X,E10.4))') (ES (RTT+10._JPRB*J),J=-4,4)
276	ENDIF
277
278	! ------------------------------------------------------------------
279
280	RETURN
281	END SUBROUTINE SUCST
282
283
284
285
286
287

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