igsm/src/tgases.F


#include "ctrparam.h"

!       ==========================================================
!
!       TGASES.F:   Subroutine for reading monthly-mean tracer mixing
!                       ratios to carryout offline calculation
!                       
!                       Version allows reading continually.
!       ----------------------------------------------------------
!
!       Author:         Chien Wang
!                       MIT Joint Program on Science and Policy
!                               of Global Change
!
!       ----------------------------------------------------------
! 
!       Revision History:
!       
!       When    Who             What
!       ----    ----------      ------- 
!       080100  Chien Wang      repack based on CliChem3 & add cpp
!
!       ==========================================================

       subroutine tgases (CO2,JMONTH)

#include "chem_para"
#include "chem_com"

      DIMENSION AMONTH(12),cff11(3)
      CHARACTER*4 AMONTH,JMONTH,RMONTH
      DATA AMONTH/'JAN','FEB','MAR','APR','MAY','JUNE','JULY','AUG',
     *  'SEP','OCT','NOV','DEC'/
      data nread /0/
      data ifirst/1/
      data cff11 /1.04,1.36,2.75/


c============================
c  Unit here for gases is
c       10^-9 kg(c)/kg(air), or ppb(m):
c
      if(CO2.le.0.0.or.CO2.gt.1.5)then
        print *,' tgases CO2=',CO2
        stop
      endif
  100 continue
      nread=nread+1
      read(569)cfc11
      read(569)cfc12
      read(569)xn2o
      read(569)o3
      read(569)co
      read(569)zco2
      read(569)ho               !useless
      read(569)xno              !useless
      read(569)xno              !useless
      read(569)ch4
      read(569)so2              !useless
      read(569)h2so4
      read(569)sviod            !optical depth of S(VI)
      read(569)bcm
      read(569)ocm
      read(569)bcodm
      read(569)ocodm

      read(679)hfc134a
      read(679)pfc
      read(679)sf6
#ifdef PREDICTED_GASES
      do l=1,nlev
      do j=1,nlat
      do i=1,nlon
       cfc11(i,j,l)=cfc11(i,j,l)+cff11(1)*hfc134a(i,j,l)
     &             +cff11(2)*pfc(i,j,l)+cff11(3)*sf6(i,j,l)
      enddo
      enddo
      enddo
#endif


      nr1=nread/12
      nr=nread-nr1*12
      if(nr.eq.0)nr=12
      RMONTH=AMONTH(nr)
      if(RMONTH.ne.JMONTH)then
         print *,' DISAGREMENT in TGASES'
         print *,nread,nr,RMONTH,JMONTH
         stop
      endif
      if(ifirst.eq.1)then
        print *,' TGASES NREAD=',nread,nr,RMONTH,JMONTH
        print *,'CO2'
c       print *,(zco2(1,12,l),l=1,nlev)
c       ifirst=0
      endif
ctropmass = 28.97296245

c        cfc11 = cfc11*tropmass/137.3675*1.e3 !pptv
c        cfc12 = cfc12*tropmass/120.9054*1.e3 !pptv
c        xn2o  = xn2o *tropmass/44.0000       !ppbv
c        o3    = o3   *tropmass/47.9982       !ppbv
c        zco2  = zco2 *tropmass/44.0098*1.e-3 !ppmv
c        co    = co   *tropmass/28.0104       !ppbv
c        ch4   = ch4  *tropmass/16.0426*1.e-3 !ppmv

        return
        end
1
2	#include "ctrparam.h"
3
4	! ==========================================================
5	!
6	! TGASES.F: Subroutine for reading monthly-mean tracer mixing
7	! ratios to carryout offline calculation
8	!
9	! Version allows reading continually.
10	! ----------------------------------------------------------
11	!
12	! Author: Chien Wang
13	! MIT Joint Program on Science and Policy
14	! of Global Change
15	!
16	! ----------------------------------------------------------
17	!
18	! Revision History:
19	!
20	! When Who What
21	! ---- ---------- -------
22	! 080100 Chien Wang repack based on CliChem3 & add cpp
23	!
24	! ==========================================================
25
26	subroutine tgases (CO2,JMONTH)
27
28	#include "chem_para"
29	#include "chem_com"
30
31	DIMENSION AMONTH(12),cff11(3)
32	CHARACTER*4 AMONTH,JMONTH,RMONTH
33	DATA AMONTH/'JAN','FEB','MAR','APR','MAY','JUNE','JULY','AUG',
34	* 'SEP','OCT','NOV','DEC'/
35	data nread /0/
36	data ifirst/1/
37	data cff11 /1.04,1.36,2.75/
38
39
40	c============================
41	c Unit here for gases is
42	c 10^-9 kg(c)/kg(air), or ppb(m):
43	c
44	if(CO2.le.0.0.or.CO2.gt.1.5)then
45	print *,' tgases CO2=',CO2
46	stop
47	endif
48	100 continue
49	nread=nread+1
50	read(569)cfc11
51	read(569)cfc12
52	read(569)xn2o
53	read(569)o3
54	read(569)co
55	read(569)zco2
56	read(569)ho !useless
57	read(569)xno !useless
58	read(569)xno !useless
59	read(569)ch4
60	read(569)so2 !useless
61	read(569)h2so4
62	read(569)sviod !optical depth of S(VI)
63	read(569)bcm
64	read(569)ocm
65	read(569)bcodm
66	read(569)ocodm
67
68	read(679)hfc134a
69	read(679)pfc
70	read(679)sf6
71	#ifdef PREDICTED_GASES
72	do l=1,nlev
73	do j=1,nlat
74	do i=1,nlon
75	cfc11(i,j,l)=cfc11(i,j,l)+cff11(1)*hfc134a(i,j,l)
76	& +cff11(2)pfc(i,j,l)+cff11(3)sf6(i,j,l)
77	enddo
78	enddo
79	enddo
80	#endif
81
82
83	nr1=nread/12
84	nr=nread-nr1*12
85	if(nr.eq.0)nr=12
86	RMONTH=AMONTH(nr)
87	if(RMONTH.ne.JMONTH)then
88	print *,' DISAGREMENT in TGASES'
89	print *,nread,nr,RMONTH,JMONTH
90	stop
91	endif
92	if(ifirst.eq.1)then
93	print *,' TGASES NREAD=',nread,nr,RMONTH,JMONTH
94	print *,'CO2'
95	c print *,(zco2(1,12,l),l=1,nlev)
96	c ifirst=0
97	endif
98	ctropmass = 28.97296245
99
100	c cfc11 = cfc11tropmass/137.36751.e3 !pptv
101	c cfc12 = cfc12tropmass/120.90541.e3 !pptv
102	c xn2o = xn2o *tropmass/44.0000 !ppbv
103	c o3 = o3 *tropmass/47.9982 !ppbv
104	c zco2 = zco2 tropmass/44.00981.e-3 !ppmv
105	c co = co *tropmass/28.0104 !ppbv
106	c ch4 = ch4 tropmass/16.04261.e-3 !ppmv
107
108	return
109	end