module inichim_newstart_mod implicit none contains subroutine inichim_newstart(ngrid, nq, pq, qsurf, ps, & flagh2o, flagthermo) use tracer_mod USE vertical_layers_mod, ONLY: aps,bps USE mod_grid_phy_lmdz, ONLY: nbp_lon, nbp_lat, nbp_lev USE datafile_mod, ONLY: datadir use dust_param_mod, only: doubleq, submicron, dustbin use intrplf_mod, only: intrplf implicit none !======================================================================= ! ! Purpose: ! -------- ! ! Initialization of the chemistry for use in the building of a new start file ! used by program newstart.F ! also used by program testphys1d.F ! ! Authors: ! ------- ! Initial version 11/2002 by Sebastien Lebonnois ! Revised 07/2003 by Monica Angelats-i-Coll to use input files ! Modified 10/2008 Identify tracers by their names Ehouarn Millour ! Modified 11/2011 Addition of methane Franck Lefevre ! Rewritten 04/2012 Franck Lefevre ! ! Arguments: ! ---------- ! ! pq(nbp_lon+1,nbp_lat,nbp_lev,nq) Advected fields, ie chemical species here ! qsurf(ngrid,nq) Amount of tracer on the surface (kg/m2) ! ps(nbp_lon+1,nbp_lat) Surface pressure (Pa) ! flagh2o flag for initialisation of h2o (1: yes / 0: no) ! flagthermo flag for initialisation of thermosphere only (1: yes / 0: no) ! !======================================================================= include "callkeys.h" ! inputs : integer,intent(in) :: ngrid ! number of atmospheric columns in the physics integer,intent(in) :: nq ! number of tracers real,intent(in) :: ps(nbp_lon+1,nbp_lat) ! surface pressure in the gcm (Pa) integer,intent(in) :: flagh2o ! flag for h2o initialisation integer,intent(in) :: flagthermo ! flag for thermosphere initialisation only ! outputs : real,intent(inout) :: pq(nbp_lon+1,nbp_lat,nbp_lev,nq) ! advected fields, ie chemical species real,intent(out) :: qsurf(ngrid,nq) ! surface values (kg/m2) of tracers ! local : integer :: iq, i, j, l, n integer :: count, ierr, idummy real :: dummy real :: mmean(nbp_lon+1,nbp_lat,nbp_lev) ! mean molecular mass (g) real :: pgcm ! pressure at each layer in the gcm (Pa) integer, parameter :: nalt = 252 ! number of altitudes in the initialization files integer :: nspe ! number of species in the initialization files integer, allocatable :: niq(:) ! local index of species in initialization files real, dimension(nalt) :: tinit, zzfile ! temperature in initialization files real, dimension(nalt) :: pinit ! pressure in initialization files real, dimension(nalt) :: densinit ! total number density in initialization files real, allocatable :: vmrinit(:,:) ! mixing ratios in initialization files real, allocatable :: vmrint(:) ! mixing ratio interpolated onto the gcm vertical grid real :: vmr character(len=20) :: txt ! to store some text logical :: flagnitro ! checks if N species present ! 1. identify tracers by their names: (and set corresponding values of mmol) ! As is done in initracer.F ! 1.1 initialize tracer indexes to zero: nqmx=nq ! initialize value of nqmx igcm_dustbin(1:nq)=0 igcm_co2_ice=0 igcm_ccnco2_mass=0 igcm_ccnco2_number=0 igcm_ccnco2_meteor_mass=0 igcm_ccnco2_meteor_number=0 igcm_ccnco2_h2o_mass_ice=0 igcm_ccnco2_h2o_mass_ccn=0 igcm_ccnco2_h2o_number=0 igcm_dust_mass=0 igcm_dust_number=0 igcm_ccn_mass=0 igcm_ccn_number=0 igcm_dust_submicron=0 igcm_h2o_vap=0 igcm_h2o_ice=0 igcm_hdo_vap=0 igcm_hdo_ice=0 igcm_stormdust_mass=0 igcm_stormdust_number=0 igcm_topdust_mass=0 igcm_topdust_number=0 igcm_co2=0 igcm_co=0 igcm_o=0 igcm_o1d=0 igcm_o2=0 igcm_o3=0 igcm_h=0 igcm_d=0 igcm_hd=0 igcm_h2=0 igcm_od=0 igcm_do2=0 igcm_hdo2=0 igcm_oh=0 igcm_ho2=0 igcm_h2o2=0 igcm_ch4=0 igcm_n2=0 igcm_ar=0 igcm_ar_n2=0 igcm_n=0 igcm_no=0 igcm_no2=0 igcm_n2d=0 igcm_he=0 igcm_co2plus=0 igcm_oplus=0 igcm_o2plus=0 igcm_coplus=0 igcm_cplus=0 igcm_nplus=0 igcm_noplus=0 igcm_n2plus=0 igcm_hplus=0 igcm_hco2plus=0 igcm_hcoplus=0 igcm_h2oplus=0 igcm_h3oplus=0 igcm_ohplus=0 igcm_elec=0 ! 1.2 find dust tracers count = 0 if (dustbin > 0) then do iq = 1,nqmx txt = " " write(txt,'(a4,i2.2)') 'dust', count + 1 if (noms(iq) == txt) then count = count + 1 igcm_dustbin(count) = iq mmol(iq) = 100. end if end do !do iq=1,nqmx end if ! of if (dustbin.gt.0) if (doubleq) then do iq = 1,nqmx if (noms(iq) == "dust_mass") then igcm_dust_mass = iq count = count + 1 end if if (noms(iq) == "dust_number") then igcm_dust_number = iq count = count + 1 end if end do end if ! of if (doubleq) if (microphys) then do iq = 1,nqmx if (noms(iq) == "ccn_mass") then igcm_ccn_mass = iq count = count + 1 end if if (noms(iq) == "ccn_number") then igcm_ccn_number = iq count = count + 1 end if end do end if ! of if (microphys) if (submicron) then do iq=1,nqmx if (noms(iq) == "dust_submicron") then igcm_dust_submicron = iq mmol(iq) = 100. count = count + 1 end if end do end if ! of if (submicron) if (rdstorm) then do iq=1,nq if (noms(iq).eq."stormdust_mass") then igcm_stormdust_mass=iq count=count+1 endif if (noms(iq).eq."stormdust_number") then igcm_stormdust_number=iq count=count+1 endif enddo endif ! of if (rdstorm) if (topflows) then do iq=1,nq if (noms(iq).eq."topdust_mass") then igcm_topdust_mass=iq count=count+1 endif if (noms(iq).eq."topdust_number") then igcm_topdust_number=iq count=count+1 endif enddo endif ! of if (topflows) ! 1.3 find chemistry and water tracers do iq = 1,nqmx if (noms(iq) == "co2") then igcm_co2 = iq mmol(igcm_co2) = 44. count = count + 1 end if if (noms(iq) == "co") then igcm_co = iq mmol(igcm_co) = 28. count = count + 1 end if if (noms(iq) == "o") then igcm_o = iq mmol(igcm_o) = 16. count = count + 1 end if if (noms(iq) == "o1d") then igcm_o1d = iq mmol(igcm_o1d) = 16. count = count + 1 end if if (noms(iq) == "o2") then igcm_o2 = iq mmol(igcm_o2) = 32. count = count + 1 end if if (noms(iq) == "o3") then igcm_o3 = iq mmol(igcm_o3) = 48. count = count + 1 end if if (noms(iq) == "h") then igcm_h = iq mmol(igcm_h) = 1. count = count + 1 end if if (noms(iq) == "h2") then igcm_h2 = iq mmol(igcm_h2) = 2. count = count + 1 end if if (noms(iq) == "oh") then igcm_oh = iq mmol(igcm_oh) = 17. count = count + 1 end if if (noms(iq) == "ho2") then igcm_ho2 = iq mmol(igcm_ho2) = 33. count = count + 1 end if if (noms(iq) == "h2o2") then igcm_h2o2 = iq mmol(igcm_h2o2) = 34. count = count + 1 end if if (noms(iq) == "n2") then igcm_n2 = iq mmol(igcm_n2) = 28. count = count + 1 end if if (noms(iq) == "ch4") then igcm_ch4 = iq mmol(igcm_ch4) = 16. count = count + 1 end if if (noms(iq) == "ar") then igcm_ar = iq mmol(igcm_ar) = 40. count = count + 1 end if if (noms(iq) == "n") then igcm_n = iq mmol(igcm_n) = 14. count = count + 1 end if if (noms(iq) == "no") then igcm_no = iq mmol(igcm_no) = 30. count = count + 1 end if if (noms(iq) == "no2") then igcm_no2 = iq mmol(igcm_no2) = 46. count = count + 1 end if if (noms(iq) == "n2d") then igcm_n2d = iq mmol(igcm_n2d) = 14. count = count + 1 end if if (noms(iq) == "he") then igcm_he=iq mmol(igcm_he)=4. count=count+1 endif if (noms(iq) == "h2o_vap") then igcm_h2o_vap = iq mmol(igcm_h2o_vap) = 18. count = count + 1 end if if (noms(iq) == "hdo_vap") then igcm_hdo_vap = iq mmol(igcm_hdo_vap) = 19. count = count + 1 end if if (noms(iq) == "od") then igcm_od = iq mmol(igcm_od) = 18. count = count + 1 end if if (noms(iq) == "d") then igcm_d = iq mmol(igcm_d) = 2. count = count + 1 end if if (noms(iq) == "hd") then igcm_d = iq mmol(igcm_d) = 3. count = count + 1 end if if (noms(iq) == "do2") then igcm_do2 = iq mmol(igcm_do2) = 34. count = count + 1 end if if (noms(iq) == "hdo2") then igcm_hdo2 = iq mmol(igcm_hdo2) = 35. count = count + 1 end if ! aerosols if (noms(iq) == "co2_ice") then igcm_co2_ice=iq mmol(igcm_co2_ice)=44. count=count+1 endif if (noms(iq) == "h2o_ice") then igcm_h2o_ice = iq mmol(igcm_h2o_ice) = 18. count = count + 1 end if if (noms(iq) == "hdo_ice") then igcm_hdo_ice = iq mmol(igcm_hdo_ice) = 19. count = count + 1 end if if (co2clouds) then if (noms(iq).eq."ccnco2_mass") then igcm_ccnco2_mass=iq count=count+1 endif if (noms(iq).eq."ccnco2_number") then igcm_ccnco2_number=iq count=count+1 endif if (meteo_flux) then if (noms(iq).eq."ccnco2_meteor_mass") then igcm_ccnco2_meteor_mass=iq count=count+1 endif if (noms(iq).eq."ccnco2_meteor_number") then igcm_ccnco2_meteor_number=iq count=count+1 endif end if if (co2useh2o) then if (noms(iq).eq."ccnco2_h2o_number") then igcm_ccnco2_h2o_number=iq count=count+1 endif if (noms(iq).eq."ccnco2_h2o_mass_ice") then igcm_ccnco2_h2o_mass_ice=iq count=count+1 endif if (noms(iq).eq."ccnco2_h2o_mass_ccn") then igcm_ccnco2_h2o_mass_ccn=iq count=count+1 endif end if endif ! of if (co2clouds) ! 1.4 find ions if (noms(iq) == "co2plus") then igcm_co2plus = iq mmol(igcm_co2plus) = 44. count = count + 1 end if if (noms(iq) == "oplus") then igcm_oplus = iq mmol(igcm_oplus) = 16. count = count + 1 end if if (noms(iq) == "o2plus") then igcm_o2plus = iq mmol(igcm_o2plus) = 32. count = count + 1 end if if (noms(iq) == "coplus") then igcm_coplus = iq mmol(igcm_coplus) = 28. count = count + 1 end if if (noms(iq) == "cplus") then igcm_cplus = iq mmol(igcm_cplus) = 12. count = count + 1 end if if (noms(iq) == "nplus") then igcm_nplus = iq mmol(igcm_nplus) = 14. count = count + 1 end if if (noms(iq) == "noplus") then igcm_noplus = iq mmol(igcm_noplus) = 30. count = count + 1 end if if (noms(iq) == "n2plus") then igcm_n2plus = iq mmol(igcm_n2plus) = 28. count = count + 1 end if if (noms(iq) == "hplus") then igcm_hplus = iq mmol(igcm_hplus) = 1. count = count + 1 end if if (noms(iq) == "hco2plus") then igcm_hco2plus = iq mmol(igcm_hco2plus) = 45. count = count + 1 end if if (noms(iq) == "hcoplus") then igcm_hcoplus = iq mmol(igcm_hcoplus) = 29. count = count + 1 end if if (noms(iq) == "h2oplus") then igcm_h2oplus = iq mmol(igcm_h2oplus) = 18. count = count + 1 end if if (noms(iq) == "h3oplus") then igcm_h3oplus = iq mmol(igcm_h3oplus) = 19. count = count + 1 end if if (noms(iq) == "ohplus") then igcm_ohplus = iq mmol(igcm_ohplus) = 17. count = count + 1 end if if (noms(iq) == "elec") then igcm_elec = iq mmol(igcm_elec) = 1./1822.89 count = count + 1 end if ! 1.5 find idealized non-condensible tracer if (noms(iq) == "Ar_N2") then igcm_ar_n2 = iq mmol(igcm_ar_n2) = 30. count = count + 1 end if end do ! of do iq=1,nqmx ! 1.6 check that we identified all tracers: if (count /= nqmx) then write(*,*) "inichim_newstart: found only ",count," tracers" write(*,*) " expected ",nqmx do iq = 1,count write(*,*) ' ', iq, ' ', trim(noms(iq)) end do call abort_physic("inichim_newstart","tracer mismatch",1) else write(*,*) "inichim_newstart: found all expected tracers" do iq = 1,nqmx write(*,*) ' ', iq, ' ', trim(noms(iq)) end do end if ! 1.7 check if nitrogen species are present: if(igcm_no == 0) then !check that no N species is in traceur.def if(igcm_n /= 0 .or. igcm_no2 /= 0 .or. igcm_n2d /= 0) then write(*,*)'inichim_newstart error:' write(*,*)'N, NO2 and/or N2D are in traceur.def, but not NO' write(*,*)'stop' call abort_physic("inichim_newstart","missing no tracer",1) endif flagnitro = .false. nspe = 14 else !check that all N species are in traceur.def if(igcm_n == 0 .or. igcm_no2 == 0 .or. igcm_n2d == 0) then write(*,*)'inichim_newstart error:' write(*,*)'if NO is in traceur.def, N, NO2 and N2D must also be' write(*,*)'stop' call abort_physic("inichim_newstart","missing n* tracer",1) endif flagnitro = .true. nspe = 18 endif ! 1.8 allocate arrays allocate(niq(nspe)) allocate(vmrinit(nalt,nspe)) allocate(vmrint(nspe)) ! 2. load in chemistry data for initialization: ! order of major species in initialization file: ! ! 1: co2 ! 2: ar ! 3: n2 ! 4: o2 ! 5: co ! 6: o ! 7: h2 ! ! order of minor species in initialization file: ! ! 1: h ! 2: oh ! 3: ho2 ! 4: h2o ! 5: h2o2 ! 6: o1d ! 7: o3 ! ! order of nitrogen species in initialization file: ! ! 1: n ! 2: no ! 3: no2 ! 4: n2d ! major species: niq(1) = igcm_co2 niq(2) = igcm_ar niq(3) = igcm_n2 niq(4) = igcm_o2 niq(5) = igcm_co niq(6) = igcm_o niq(7) = igcm_h2 ! minor species: niq(8) = igcm_h niq(9) = igcm_oh niq(10) = igcm_ho2 niq(11) = igcm_h2o_vap niq(12) = igcm_h2o2 niq(13) = igcm_o1d niq(14) = igcm_o3 ! nitrogen species: if (flagnitro) then niq(15) = igcm_n niq(16) = igcm_no niq(17) = igcm_no2 niq(18) = igcm_n2d end if ! 2.1 open initialization files open(210, iostat=ierr,file=trim(datadir)//'/atmosfera_LMD_may.dat') if (ierr /= 0) then write(*,*)'Error : cannot open file atmosfera_LMD_may.dat ' write(*,*)'(in aeronomars/inichim_newstart.F)' write(*,*)'It should be in :', trim(datadir),'/' write(*,*)'1) You can change this path in callphys.def with' write(*,*)' datadir=/path/to/datafiles/' write(*,*)'2) If necessary atmosfera_LMD_may.dat (and others)' write(*,*)' can be obtained online on:' write(*,*)' http://www.lmd.jussieu.fr/~lmdz/planets/mars/datadir' call abort_physic("inichim_newstart","missing input file",1) end if open(220, iostat=ierr,file=trim(datadir)//'/atmosfera_LMD_min.dat') if (ierr /= 0) then write(*,*)'Error : cannot open file atmosfera_LMD_min.dat ' write(*,*)'(in aeronomars/inichim_newstart.F)' write(*,*)'It should be in :', trim(datadir),'/' write(*,*)'1) You can change this path in callphys.def with' write(*,*)' datadir=/path/to/datafiles/' write(*,*)'2) If necessary atmosfera_LMD_min.dat (and others)' write(*,*)' can be obtained online on:' write(*,*)' http://www.lmd.jussieu.fr/~lmdz/planets/mars/datadir' call abort_physic("inichim_newstart","missing input file",1) end if if(flagnitro) then open(230, iostat=ierr,file=trim(datadir)//'/atmosfera_LMD_nitr.dat') if (ierr.ne.0) then write(*,*)'Error : cannot open file atmosfera_LMD_nitr.dat ' write(*,*)'(in aeronomars/inichim_newstart.F)' write(*,*)'It should be in :', trim(datadir),'/' write(*,*)'1) You can change this path in callphys.def with' write(*,*)' datadir=/path/to/datafiles/' write(*,*)'2) If necessary atmosfera_LMD_nitr.dat (and others)' write(*,*)' can be obtained online on:' write(*,*)' http://www.lmd.jussieu.fr/~lmdz/planets/mars/datadir' call abort_physic("inichim_newstart","missing input file",1) endif endif ! Of if(flagnitro) ! 2.2 read initialization files ! major species read(210,*) do l = 1,nalt read(210,*) idummy, tinit(l), pinit(l), densinit(l), & (vmrinit(l,n), n = 1,7) pinit(l) = pinit(l)*100. ! conversion in Pa pinit(l) = log(pinit(l)) ! for the vertical interpolation end do close(210) ! minor species read(220,*) do l = 1,nalt read(220,*) dummy, (vmrinit(l,n), n = 8,14) end do close(220) ! nitrogen species if (flagnitro) then read(230,*) do l = 1,nalt read(230,*) dummy, (vmrinit(l,n), n = 15,18) end do close(230) end if ! 3. initialization of tracers do i = 1,nbp_lon+1 do j = 1,nbp_lat do l = 1,nbp_lev pgcm = aps(l) + bps(l)*ps(i,j) ! gcm pressure pgcm = log(pgcm) ! for the vertical interpolation mmean(i,j,l) = 0. ! 3.1 vertical interpolation do n = 1,nspe call intrplf(pgcm,vmr,pinit,vmrinit(:,n),nalt) vmrint(n) = vmr iq = niq(n) mmean(i,j,l) = mmean(i,j,l) + vmrint(n)*mmol(iq) end do ! 3.2 attribute mixing ratio: - all layers or only thermosphere ! - with our without h2o if (flagthermo == 0 .or. (flagthermo == 1 .and. exp(pgcm) < 0.1)) then do n = 1,nspe iq = niq(n) if (iq /= igcm_h2o_vap .or. flagh2o == 1) then pq(i,j,l,iq) = vmrint(n)*mmol(iq)/mmean(i,j,l) end if end do end if end do end do end do ! set surface values of chemistry tracers to zero if (flagthermo == 0) then ! NB: no problem for "surface water vapour" tracer which is always 0 do n = 1,nspe iq = niq(n) qsurf(1:ngrid,iq) = 0. end do end if ! 3.3 initialization of tracers not contained in the initialization files ! methane : 10 ppbv if (igcm_ch4 /= 0) then vmr = 10.e-9 do i = 1,nbp_lon+1 do j = 1,nbp_lat do l = 1,nbp_lev pq(i,j,l,igcm_ch4) = vmr*mmol(igcm_ch4)/mmean(i,j,l) end do end do end do ! set surface value to zero qsurf(1:ngrid,igcm_ch4) = 0. end if ! ions: 0 if (igcm_co2plus /= 0) then !check that all required ions are in traceur.def if (igcm_o2plus == 0 .or. igcm_oplus == 0 .or. igcm_coplus == 0 & .or. igcm_cplus == 0 .or. igcm_nplus == 0 .or. igcm_noplus == 0 & .or. igcm_n2plus == 0 .or. igcm_hplus == 0 .or. igcm_hco2plus == 0 & .or. igcm_hcoplus == 0 .or. igcm_h2oplus == 0 & .or. igcm_h3oplus == 0.or. igcm_ohplus == 0 .or.igcm_elec == 0) then write(*,*)'inichim_newstart error:' write(*,*)'if co2plus is in traceur.def, all other ions must also be' write(*,*)'o2plus, oplus, coplus, cplus, nplus, noplus, n2plus' write(*,*)'hplus, hco2plus, hcoplus, h2oplus, h3oplus, ohplus, and elec' write(*,*)'stop' call abort_physic("inichim_newstart","missing ions in tracers",1) end if do i = 1,nbp_lon+1 do j = 1,nbp_lat do l = 1,nbp_lev ! all ions to 0 pq(i,j,l,igcm_co2plus) = 0. pq(i,j,l,igcm_o2plus) = 0. pq(i,j,l,igcm_oplus) = 0. pq(i,j,l,igcm_coplus) = 0. pq(i,j,l,igcm_cplus) = 0. pq(i,j,l,igcm_nplus) = 0. pq(i,j,l,igcm_noplus) = 0. pq(i,j,l,igcm_n2plus) = 0. pq(i,j,l,igcm_hplus) = 0. pq(i,j,l,igcm_hco2plus) = 0. pq(i,j,l,igcm_hcoplus) = 0. pq(i,j,l,igcm_h2oplus) = 0. pq(i,j,l,igcm_h3oplus) = 0. pq(i,j,l,igcm_ohplus) = 0. pq(i,j,l,igcm_elec) = 0. end do end do end do ! surface value to 0 qsurf(1:ngrid,igcm_co2plus) = 0. qsurf(1:ngrid,igcm_o2plus) = 0. qsurf(1:ngrid,igcm_oplus) = 0. qsurf(1:ngrid,igcm_coplus) = 0. qsurf(1:ngrid,igcm_cplus) = 0. qsurf(1:ngrid,igcm_nplus) = 0. qsurf(1:ngrid,igcm_noplus) = 0. qsurf(1:ngrid,igcm_n2plus) = 0. qsurf(1:ngrid,igcm_hplus) = 0. qsurf(1:ngrid,igcm_hco2plus) = 0. qsurf(1:ngrid,igcm_hcoplus) = 0. qsurf(1:ngrid,igcm_h2oplus) = 0. qsurf(1:ngrid,igcm_h3oplus) = 0. qsurf(1:ngrid,igcm_ohplus) = 0. qsurf(1:ngrid,igcm_elec) = 0. else if (igcm_o2plus /= 0 .or. igcm_oplus /= 0 .or. igcm_coplus /= 0 & .or. igcm_cplus /= 0 .or. igcm_nplus /= 0 .or. igcm_noplus /= 0 & .or. igcm_n2plus /= 0 .or. igcm_hplus /= 0 .or. igcm_hco2plus /= 0 & .or. igcm_hcoplus /= 0 .or. igcm_h2oplus /= 0 & .or. igcm_h3oplus /= 0 .or. igcm_ohplus /= 0 .or. igcm_elec /= 0) then write(*,*)'inichim_newstart error:' write(*,*)'some ions are in traceur.def, but not co2plus' write(*,*)'stop' call abort_physic("inichim_newstart","missing ions in tracers",1) end if end if ! of if(igcm_co2 /= 0) ! deallocations deallocate(niq) deallocate(vmrinit) deallocate(vmrint) end subroutine inichim_newstart end module inichim_newstart_mod