New URL for NEMO forge! http://forge.nemo-ocean.eu

Since March 2022 along with NEMO 4.2 release, the code development moved to a self-hosted GitLab.
This present forge is now archived and remained online for history.

p4zche.F90 in branches/2016/dev_r6519_HPC_4/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z – NEMO

Context Navigation

source: branches/2016/dev_r6519_HPC_4/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zche.F90 @ 7037

Last change on this file since 7037 was 7037, checked in by mocavero, 8 years ago
ORCA2_LIM_PISCES hybrid version update
Property svn:keywords set to `Id`
File size: 16.2 KB

Line
1	MODULE p4zche
2	!!======================================================================
3	!! * MODULE p4zche *
4	!! TOP : PISCES Sea water chemistry computed following OCMIP protocol
5	!!======================================================================
6	!! History : OPA ! 1988 (E. Maier-Reimer) Original code
7	!! - ! 1998 (O. Aumont) addition
8	!! - ! 1999 (C. Le Quere) modification
9	!! NEMO 1.0 ! 2004 (O. Aumont) modification
10	!! - ! 2006 (R. Gangsto) modification
11	!! 2.0 ! 2007-12 (C. Ethe, G. Madec) F90
12	!! ! 2011-02 (J. Simeon, J.Orr ) update O2 solubility constants
13	!!----------------------------------------------------------------------
14	#if defined key_pisces
15	!!----------------------------------------------------------------------
16	!! 'key_pisces' PISCES bio-model
17	!!----------------------------------------------------------------------
18	!! p4z_che : Sea water chemistry computed following OCMIP protocol
19	!!----------------------------------------------------------------------
20	USE oce_trc ! shared variables between ocean and passive tracers
21	USE trc ! passive tracers common variables
22	USE sms_pisces ! PISCES Source Minus Sink variables
23	USE lib_mpp ! MPP library
24
25	IMPLICIT NONE
26	PRIVATE
27
28	PUBLIC p4z_che !
29	PUBLIC p4z_che_alloc !
30
31	REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sio3eq ! chemistry of Si
32	REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: fekeq ! chemistry of Fe
33	REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:) :: chemc ! Solubilities of O2 and CO2
34	REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: chemo2 ! Solubilities of O2 and CO2
35
36	REAL(wp), PUBLIC :: atcox = 0.20946 ! units atm
37
38	REAL(wp) :: salchl = 1. / 1.80655 ! conversion factor for salinity --> chlorinity (Wooster et al. 1969)
39	REAL(wp) :: o2atm = 1. / ( 1000. * 0.20946 )
40
41	REAL(wp) :: akcc1 = -171.9065 ! coeff. for apparent solubility equilibrium
42	REAL(wp) :: akcc2 = -0.077993 ! Millero et al. 1995 from Mucci 1983
43	REAL(wp) :: akcc3 = 2839.319
44	REAL(wp) :: akcc4 = 71.595
45	REAL(wp) :: akcc5 = -0.77712
46	REAL(wp) :: akcc6 = 0.00284263
47	REAL(wp) :: akcc7 = 178.34
48	REAL(wp) :: akcc8 = -0.07711
49	REAL(wp) :: akcc9 = 0.0041249
50
51	REAL(wp) :: rgas = 83.143 ! universal gas constants
52	REAL(wp) :: oxyco = 1. / 22.4144 ! converts from liters of an ideal gas to moles
53
54	REAL(wp) :: bor1 = 0.00023 ! borat constants
55	REAL(wp) :: bor2 = 1. / 10.82
56
57	REAL(wp) :: ca0 = -162.8301 ! WEISS & PRICE 1980, units mol/(kg atm)
58	REAL(wp) :: ca1 = 218.2968
59	REAL(wp) :: ca2 = 90.9241
60	REAL(wp) :: ca3 = -1.47696
61	REAL(wp) :: ca4 = 0.025695
62	REAL(wp) :: ca5 = -0.025225
63	REAL(wp) :: ca6 = 0.0049867
64
65	REAL(wp) :: c10 = -3670.7 ! Coeff. for 1. dissoc. of carbonic acid (Edmond and Gieskes, 1970)
66	REAL(wp) :: c11 = 62.008
67	REAL(wp) :: c12 = -9.7944
68	REAL(wp) :: c13 = 0.0118
69	REAL(wp) :: c14 = -0.000116
70
71	REAL(wp) :: c20 = -1394.7 ! coeff. for 2. dissoc. of carbonic acid (Millero, 1995)
72	REAL(wp) :: c21 = -4.777
73	REAL(wp) :: c22 = 0.0184
74	REAL(wp) :: c23 = -0.000118
75
76	REAL(wp) :: st1 = 0.14 ! constants for calculate concentrations for sulfate
77	REAL(wp) :: st2 = 1./96.062 ! (Morris & Riley 1966)
78
79	REAL(wp) :: ft1 = 0.000067 ! constants for calculate concentrations for fluorides
80	REAL(wp) :: ft2 = 1./18.9984 ! (Dickson & Riley 1979 )
81
82	! ! volumetric solubility constants for o2 in ml/L
83	REAL(wp) :: ox0 = 2.00856 ! from Table 1 for Eq 8 of Garcia and Gordon, 1992.
84	REAL(wp) :: ox1 = 3.22400 ! corrects for moisture and fugacity, but not total atmospheric pressure
85	REAL(wp) :: ox2 = 3.99063 ! Original PISCES code noted this was a solubility, but
86	REAL(wp) :: ox3 = 4.80299 ! was in fact a bunsen coefficient with units L-O2/(Lsw atm-O2)
87	REAL(wp) :: ox4 = 9.78188e-1 ! Hence, need to divide EXP( zoxy ) by 1000, ml-O2 => L-O2
88	REAL(wp) :: ox5 = 1.71069 ! and atcox = 0.20946 to add the 1/atm dimension.
89	REAL(wp) :: ox6 = -6.24097e-3
90	REAL(wp) :: ox7 = -6.93498e-3
91	REAL(wp) :: ox8 = -6.90358e-3
92	REAL(wp) :: ox9 = -4.29155e-3
93	REAL(wp) :: ox10 = -3.11680e-7
94
95	! ! coeff. for seawater pressure correction : millero 95
96	! ! AGRIF doesn't like the DATA instruction
97	REAL(wp) :: devk11 = -25.5
98	REAL(wp) :: devk12 = -15.82
99	REAL(wp) :: devk13 = -29.48
100	REAL(wp) :: devk14 = -25.60
101	REAL(wp) :: devk15 = -48.76
102	!
103	REAL(wp) :: devk21 = 0.1271
104	REAL(wp) :: devk22 = -0.0219
105	REAL(wp) :: devk23 = 0.1622
106	REAL(wp) :: devk24 = 0.2324
107	REAL(wp) :: devk25 = 0.5304
108	!
109	REAL(wp) :: devk31 = 0.
110	REAL(wp) :: devk32 = 0.
111	REAL(wp) :: devk33 = 2.608E-3
112	REAL(wp) :: devk34 = -3.6246E-3
113	REAL(wp) :: devk35 = 0.
114	!
115	REAL(wp) :: devk41 = -3.08E-3
116	REAL(wp) :: devk42 = 1.13E-3
117	REAL(wp) :: devk43 = -2.84E-3
118	REAL(wp) :: devk44 = -5.13E-3
119	REAL(wp) :: devk45 = -11.76E-3
120	!
121	REAL(wp) :: devk51 = 0.0877E-3
122	REAL(wp) :: devk52 = -0.1475E-3
123	REAL(wp) :: devk53 = 0.
124	REAL(wp) :: devk54 = 0.0794E-3
125	REAL(wp) :: devk55 = 0.3692E-3
126
127	!!----------------------------------------------------------------------
128	!! NEMO/TOP 3.3 , NEMO Consortium (2010)
129	!! $Id$
130	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
131	!!----------------------------------------------------------------------
132	CONTAINS
133
134	SUBROUTINE p4z_che
135	!!---------------------------------------------------------------------
136	!! * ROUTINE p4z_che *
137	!!
138	!! ** Purpose : Sea water chemistry computed following OCMIP protocol
139	!!
140	!! ** Method : - ...
141	!!---------------------------------------------------------------------
142	INTEGER :: ji, jj, jk
143	REAL(wp) :: ztkel, zt , zt2 , zsal , zsal2 , zbuf1 , zbuf2
144	REAL(wp) :: ztgg , ztgg2, ztgg3 , ztgg4 , ztgg5
145	REAL(wp) :: zpres, ztc , zcl , zcpexp, zoxy , zcpexp2
146	REAL(wp) :: zsqrt, ztr , zlogt , zcek1
147	REAL(wp) :: zis , zis2 , zsal15, zisqrt
148	REAL(wp) :: zckb , zck1 , zck2 , zckw , zak1 , zak2 , zakb , zaksp0, zakw
149	REAL(wp) :: zst , zft , zcks , zckf , zaksp1
150	!!---------------------------------------------------------------------
151	!
152	IF( nn_timing == 1 ) CALL timing_start('p4z_che')
153	!
154	! CHEMICAL CONSTANTS - SURFACE LAYER
155	! ----------------------------------
156	!$OMP PARALLEL
157	!$OMP DO schedule(static) private(jj,ji,ztkel,zt,zt2,zsal,zsal2,zlogt,zcek1)
158	DO jj = 1, jpj
159	DO ji = 1, jpi
160	! ! SET ABSOLUTE TEMPERATURE
161	ztkel = tsn(ji,jj,1,jp_tem) + 273.15
162	zt = ztkel * 0.01
163	zt2 = zt * zt
164	zsal = tsn(ji,jj,1,jp_sal) + ( 1.- tmask(ji,jj,1) ) * 35.
165	zsal2 = zsal * zsal
166	zlogt = LOG( zt )
167	! ! LN(K0) OF SOLUBILITY OF CO2 (EQ. 12, WEISS, 1980)
168	! ! AND FOR THE ATMOSPHERE FOR NON IDEAL GAS
169	zcek1 = ca0 + ca1 / zt + ca2 * zlogt + ca3 * zt2 + zsal * ( ca4 + ca5 * zt + ca6 * zt2 )
170	! ! SET SOLUBILITIES OF O2 AND CO2
171	chemc(ji,jj) = EXP( zcek1 ) * 1.e-6 * rhop(ji,jj,1) / 1000. ! mol/(L uatm)
172	!
173	END DO
174	END DO
175
176	! OXYGEN SOLUBILITY - DEEP OCEAN
177	! -------------------------------
178	!$OMP DO schedule(static) private(jk,jj,ji,ztkel,zsal,zsal2,ztgg,ztgg2,ztgg3,ztgg4,ztgg5,zoxy)
179	DO jk = 1, jpk
180	DO jj = 1, jpj
181	DO ji = 1, jpi
182	ztkel = tsn(ji,jj,jk,jp_tem) + 273.15
183	zsal = tsn(ji,jj,jk,jp_sal) + ( 1.- tmask(ji,jj,jk) ) * 35.
184	zsal2 = zsal * zsal
185	ztgg = LOG( ( 298.15 - tsn(ji,jj,jk,jp_tem) ) / ztkel ) ! Set the GORDON & GARCIA scaled temperature
186	ztgg2 = ztgg * ztgg
187	ztgg3 = ztgg2 * ztgg
188	ztgg4 = ztgg3 * ztgg
189	ztgg5 = ztgg4 * ztgg
190	zoxy = ox0 + ox1 * ztgg + ox2 * ztgg2 + ox3 * ztgg3 + ox4 * ztgg4 + ox5 * ztgg5 &
191	+ zsal * ( ox6 + ox7 * ztgg + ox8 * ztgg2 + ox9 * ztgg3 ) + ox10 * zsal2
192	chemo2(ji,jj,jk) = ( EXP( zoxy ) * o2atm ) * oxyco * atcox ! mol/(L atm)
193	END DO
194	END DO
195	END DO
196
197
198
199	! CHEMICAL CONSTANTS - DEEP OCEAN
200	! -------------------------------
201	!$OMP DO schedule(static) private(jk,jj,ji,zpres,ztkel,zsal,zsqrt,zsal15,zlogt,ztr,zis,zis2,zisqrt,ztc,zcl,zst,zft,zcks,zckf,zckb,zck1,zck2,zckw,zaksp0,zak1,zak2,zakb,zakw,zaksp1,zcpexp,zcpexp2,zbuf1,zbuf2)
202	DO jk = 1, jpk
203	DO jj = 1, jpj
204	DO ji = 1, jpi
205
206	! SET PRESSION
207	zpres = 1.025e-1 * gdept_n(ji,jj,jk)
208
209	! SET ABSOLUTE TEMPERATURE
210	ztkel = tsn(ji,jj,jk,jp_tem) + 273.15
211	zsal = tsn(ji,jj,jk,jp_sal) + ( 1.-tmask(ji,jj,jk) ) * 35.
212	zsqrt = SQRT( zsal )
213	zsal15 = zsqrt * zsal
214	zlogt = LOG( ztkel )
215	ztr = 1. / ztkel
216	zis = 19.924 * zsal / ( 1000.- 1.005 * zsal )
217	zis2 = zis * zis
218	zisqrt = SQRT( zis )
219	ztc = tsn(ji,jj,jk,jp_tem) + ( 1.- tmask(ji,jj,jk) ) * 20.
220
221	! CHLORINITY (WOOSTER ET AL., 1969)
222	zcl = zsal * salchl
223
224	! TOTAL SULFATE CONCENTR. [MOLES/kg soln]
225	zst = st1 * zcl * st2
226
227	! TOTAL FLUORIDE CONCENTR. [MOLES/kg soln]
228	zft = ft1 * zcl * ft2
229
230	! DISSOCIATION CONSTANT FOR SULFATES on free H scale (Dickson 1990)
231	zcks = EXP(-4276.1 * ztr + 141.328 - 23.093 * zlogt &
232	& + (-13856. * ztr + 324.57 - 47.986 * zlogt) * zisqrt &
233	& + (35474. * ztr - 771.54 + 114.723 * zlogt) * zis &
234	& - 2698. * ztr * zis*1.5 + 1776. ztr * zis2 &
235	& + LOG(1.0 - 0.001005 * zsal))
236	!
237	aphscale(ji,jj,jk) = ( 1. + zst / zcks )
238
239	! DISSOCIATION CONSTANT FOR FLUORIDES on free H scale (Dickson and Riley 79)
240	zckf = EXP( 1590.2ztr - 12.641 + 1.525zisqrt &
241	& + LOG(1.0d0 - 0.001005d0*zsal) &
242	& + LOG(1.0d0 + zst/zcks))
243
244	! DISSOCIATION CONSTANT FOR CARBONATE AND BORATE
245	zckb= (-8966.90 - 2890.53zsqrt - 77.942zsal &
246	& + 1.728zsal15 - 0.0996zsalzsal)ztr &
247	& + (148.0248 + 137.1942zsqrt + 1.62142zsal) &
248	& + (-24.4344 - 25.085zsqrt - 0.2474zsal) &
249	& * zlogt + 0.053105zsqrtztkel
250
251
252	zck1 = c10 * ztr + c11 + c12 * zlogt + c13 * zsal + c14 * zsal * zsal
253	zck2 = c20 * ztr + c21 + c22 * zsal + c23 * zsal**2
254
255	! PKW (H2O) (DICKSON AND RILEY, 1979)
256	zckw = -13847.26ztr + 148.9652 - 23.6521 zlogt &
257	& + (118.67ztr - 5.977 + 1.0495 zlogt) &
258	& * zsqrt - 0.01615 * zsal
259
260	! APPARENT SOLUBILITY PRODUCT K'SP OF CALCITE IN SEAWATER
261	! (S=27-43, T=2-25 DEG C) at pres =0 (atmos. pressure) (MUCCI 1983)
262	zaksp0 = akcc1 + akcc2 * ztkel + akcc3 * ztr + akcc4 * LOG10( ztkel ) &
263	& + ( akcc5 + akcc6 * ztkel + akcc7 * ztr ) * zsqrt + akcc8 * zsal + akcc9 * zsal15
264
265	! K1, K2 OF CARBONIC ACID, KB OF BORIC ACID, KW (H2O) (LIT.?)
266	zak1 = 10**(zck1)
267	zak2 = 10**(zck2)
268	zakb = EXP( zckb )
269	zakw = EXP( zckw )
270	zaksp1 = 10**(zaksp0)
271
272	! FORMULA FOR CPEXP AFTER EDMOND & GIESKES (1970)
273	! (REFERENCE TO CULBERSON & PYTKOQICZ (1968) AS MADE
274	! IN BROECKER ET AL. (1982) IS INCORRECT; HERE RGAS IS
275	! TAKEN TENFOLD TO CORRECT FOR THE NOTATION OF pres IN
276	! DBAR INSTEAD OF BAR AND THE EXPRESSION FOR CPEXP IS
277	! MULTIPLIED BY LN(10.) TO ALLOW USE OF EXP-FUNCTION
278	! WITH BASIS E IN THE FORMULA FOR AKSPP (CF. EDMOND
279	! & GIESKES (1970), P. 1285-1286 (THE SMALL
280	! FORMULA ON P. 1286 IS RIGHT AND CONSISTENT WITH THE
281	! SIGN IN PARTIAL MOLAR VOLUME CHANGE AS SHOWN ON P. 1285))
282	zcpexp = zpres /(rgas*ztkel)
283	zcpexp2 = zpres * zpres/(rgas*ztkel)
284
285	! KB OF BORIC ACID, K1,K2 OF CARBONIC ACID PRESSURE
286	! CORRECTION AFTER CULBERSON AND PYTKOWICZ (1968)
287	! (CF. BROECKER ET AL., 1982)
288
289	zbuf1 = - ( devk11 + devk21 * ztc + devk31 * ztc * ztc )
290	zbuf2 = 0.5 * ( devk41 + devk51 * ztc )
291	ak13(ji,jj,jk) = zak1 * EXP( zbuf1 * zcpexp + zbuf2 * zcpexp2 )
292
293	zbuf1 = - ( devk12 + devk22 * ztc + devk32 * ztc * ztc )
294	zbuf2 = 0.5 * ( devk42 + devk52 * ztc )
295	ak23(ji,jj,jk) = zak2 * EXP( zbuf1 * zcpexp + zbuf2 * zcpexp2 )
296
297	zbuf1 = - ( devk13 + devk23 * ztc + devk33 * ztc * ztc )
298	zbuf2 = 0.5 * ( devk43 + devk53 * ztc )
299	akb3(ji,jj,jk) = zakb * EXP( zbuf1 * zcpexp + zbuf2 * zcpexp2 )
300
301	zbuf1 = - ( devk14 + devk24 * ztc + devk34 * ztc * ztc )
302	zbuf2 = 0.5 * ( devk44 + devk54 * ztc )
303	akw3(ji,jj,jk) = zakw * EXP( zbuf1 * zcpexp + zbuf2 * zcpexp2 )
304
305
306	! APPARENT SOLUBILITY PRODUCT K'SP OF CALCITE
307	! AS FUNCTION OF PRESSURE FOLLOWING MILLERO
308	! (P. 1285) AND BERNER (1976)
309	zbuf1 = - ( devk15 + devk25 * ztc + devk35 * ztc * ztc )
310	zbuf2 = 0.5 * ( devk45 + devk55 * ztc )
311	aksp(ji,jj,jk) = zaksp1 * EXP( zbuf1 * zcpexp + zbuf2 * zcpexp2 )
312
313	! TOTAL BORATE CONCENTR. [MOLES/L]
314	borat(ji,jj,jk) = bor1 * zcl * bor2
315
316	! Iron and SIO3 saturation concentration from ...
317	sio3eq(ji,jj,jk) = EXP( LOG( 10.) * ( 6.44 - 968. / ztkel ) ) * 1.e-6
318	fekeq (ji,jj,jk) = 10**( 17.27 - 1565.7 / ( 273.15 + ztc ) )
319
320	END DO
321	END DO
322	END DO
323	!$OMP END DO NOWAIT
324	!$OMP END PARALLEL
325	!
326	IF( nn_timing == 1 ) CALL timing_stop('p4z_che')
327	!
328	END SUBROUTINE p4z_che
329
330
331	INTEGER FUNCTION p4z_che_alloc()
332	!!----------------------------------------------------------------------
333	!! * ROUTINE p4z_che_alloc *
334	!!----------------------------------------------------------------------
335	ALLOCATE( sio3eq(jpi,jpj,jpk), fekeq(jpi,jpj,jpk), chemc(jpi,jpj), chemo2(jpi,jpj,jpk), &
336	& STAT=p4z_che_alloc )
337	!
338	IF( p4z_che_alloc /= 0 ) CALL ctl_warn('p4z_che_alloc : failed to allocate arrays.')
339	!
340	END FUNCTION p4z_che_alloc
341
342	#else
343	!!======================================================================
344	!! Dummy module : No PISCES bio-model
345	!!======================================================================
346	CONTAINS
347	SUBROUTINE p4z_che( kt ) ! Empty routine
348	INTEGER, INTENT(in) :: kt
349	WRITE(,) 'p4z_che: You should not have seen this print! error?', kt
350	END SUBROUTINE p4z_che
351	#endif
352
353	!!======================================================================
354	END MODULE p4zche

Note: See TracBrowser for help on using the repository browser.

Download in other formats: