[8a65cb0] | 1 | !********************************************************************** |
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| 2 | ! Copyright 1998,1999,2000,2001,2002,2005,2007,2008,2009,2010 * |
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| 3 | ! Andreas Stohl, Petra Seibert, A. Frank, Gerhard Wotawa, * |
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| 4 | ! Caroline Forster, Sabine Eckhardt, John Burkhart, Harald Sodemann * |
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| 5 | ! * |
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| 6 | ! This file is part of FLEXPART. * |
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| 7 | ! * |
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| 8 | ! FLEXPART is free software: you can redistribute it and/or modify * |
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| 9 | ! it under the terms of the GNU General Public License as published by* |
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| 10 | ! the Free Software Foundation, either version 3 of the License, or * |
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| 11 | ! (at your option) any later version. * |
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| 12 | ! * |
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| 13 | ! FLEXPART is distributed in the hope that it will be useful, * |
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| 14 | ! but WITHOUT ANY WARRANTY; without even the implied warranty of * |
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| 15 | ! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * |
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| 16 | ! GNU General Public License for more details. * |
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| 17 | ! * |
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| 18 | ! You should have received a copy of the GNU General Public License * |
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| 19 | ! along with FLEXPART. If not, see <http://www.gnu.org/licenses/>. * |
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| 20 | !********************************************************************** |
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| 21 | |
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| 22 | subroutine concoutput_surf(itime,outnum,gridtotalunc,wetgridtotalunc, & |
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| 23 | drygridtotalunc) |
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| 24 | ! i i o o |
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| 25 | ! o |
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| 26 | !***************************************************************************** |
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| 27 | ! * |
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| 28 | ! Output of the concentration grid and the receptor concentrations. * |
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| 29 | ! * |
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| 30 | ! Author: A. Stohl * |
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| 31 | ! * |
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| 32 | ! 24 May 1995 * |
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| 33 | ! * |
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| 34 | ! 13 April 1999, Major update: if output size is smaller, dump output * |
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| 35 | ! in sparse matrix format; additional output of * |
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| 36 | ! uncertainty * |
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| 37 | ! * |
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| 38 | ! 05 April 2000, Major update: output of age classes; output for backward* |
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| 39 | ! runs is time spent in grid cell times total mass of * |
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| 40 | ! species. * |
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| 41 | ! * |
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| 42 | ! 17 February 2002, Appropriate dimensions for backward and forward runs * |
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| 43 | ! are now specified in file par_mod * |
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| 44 | ! * |
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| 45 | ! June 2006, write grid in sparse matrix with a single write command * |
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| 46 | ! in order to save disk space * |
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| 47 | ! * |
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| 48 | ! 2008 new sparse matrix format * |
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| 49 | ! * |
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| 50 | ! Changes eso: * |
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| 51 | ! 2014 MPI version This routine is only called by root MPI * |
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| 52 | ! process (the other processes have sent * |
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| 53 | ! their fields to root) * |
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| 54 | ! * |
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| 55 | !***************************************************************************** |
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| 56 | ! * |
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| 57 | ! Variables: * |
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| 58 | ! outnum number of samples * |
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| 59 | ! ncells number of cells with non-zero concentrations * |
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| 60 | ! sparse .true. if in sparse matrix format, else .false. * |
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| 61 | ! tot_mu 1 for forward, initial mass mixing ration for backw. runs * |
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| 62 | ! * |
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| 63 | !***************************************************************************** |
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| 64 | |
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| 65 | use unc_mod |
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| 66 | use point_mod |
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| 67 | use outg_mod |
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| 68 | use par_mod |
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| 69 | use com_mod |
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| 70 | use mpi_mod |
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[6a678e3] | 71 | use mean_mod |
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[8a65cb0] | 72 | |
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| 73 | implicit none |
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| 74 | |
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| 75 | real(kind=dp) :: jul |
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| 76 | integer :: itime,i,ix,jy,kz,ks,kp,l,iix,jjy,kzz,nage,jjjjmmdd,ihmmss |
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| 77 | integer :: sp_count_i,sp_count_r |
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| 78 | real :: sp_fact |
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| 79 | real :: outnum,densityoutrecept(maxreceptor),xl,yl |
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| 80 | |
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| 81 | !real densityoutgrid(0:numxgrid-1,0:numygrid-1,numzgrid), |
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| 82 | ! +grid(0:numxgrid-1,0:numygrid-1,numzgrid,maxspec,maxpointspec_act, |
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| 83 | ! + maxageclass) |
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| 84 | !real wetgrid(0:numxgrid-1,0:numygrid-1,maxspec,maxpointspec_act, |
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| 85 | ! + maxageclass) |
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| 86 | !real drygrid(0:numxgrid-1,0:numygrid-1,maxspec, |
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| 87 | ! + maxpointspec_act,maxageclass) |
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| 88 | !real gridsigma(0:numxgrid-1,0:numygrid-1,numzgrid,maxspec, |
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| 89 | ! + maxpointspec_act,maxageclass), |
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| 90 | ! + drygridsigma(0:numxgrid-1,0:numygrid-1,maxspec, |
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| 91 | ! + maxpointspec_act,maxageclass), |
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| 92 | ! + wetgridsigma(0:numxgrid-1,0:numygrid-1,maxspec, |
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| 93 | ! + maxpointspec_act,maxageclass) |
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| 94 | !real factor(0:numxgrid-1,0:numygrid-1,numzgrid) |
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| 95 | !real sparse_dump_r(numxgrid*numygrid*numzgrid) |
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| 96 | !integer sparse_dump_i(numxgrid*numygrid*numzgrid) |
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| 97 | |
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| 98 | !real sparse_dump_u(numxgrid*numygrid*numzgrid) |
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[6a678e3] | 99 | real(dep_prec) :: auxgrid(nclassunc) |
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| 100 | real(sp) :: gridtotal,gridsigmatotal,gridtotalunc |
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| 101 | real(dep_prec) :: wetgridtotal,wetgridsigmatotal,wetgridtotalunc |
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| 102 | real(dep_prec) :: drygridtotal,drygridsigmatotal,drygridtotalunc |
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[8a65cb0] | 103 | real :: halfheight,dz,dz1,dz2,tot_mu(maxspec,maxpointspec_act) |
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| 104 | real,parameter :: smallnum = tiny(0.0) ! smallest number that can be handled |
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| 105 | real,parameter :: weightair=28.97 |
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| 106 | logical :: sp_zer |
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| 107 | character :: adate*8,atime*6 |
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| 108 | character(len=3) :: anspec |
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[5f9d14a] | 109 | integer :: mind |
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| 110 | ! mind eso:added to get consistent results between 2&3-fields versions |
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[8a65cb0] | 111 | |
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| 112 | ! Measure execution time |
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[5f9d14a] | 113 | if (mp_measure_time) call mpif_mtime('rootonly',0) |
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[8a65cb0] | 114 | |
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| 115 | |
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| 116 | ! Determine current calendar date, needed for the file name |
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| 117 | !********************************************************** |
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| 118 | |
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| 119 | jul=bdate+real(itime,kind=dp)/86400._dp |
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| 120 | call caldate(jul,jjjjmmdd,ihmmss) |
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| 121 | write(adate,'(i8.8)') jjjjmmdd |
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| 122 | write(atime,'(i6.6)') ihmmss |
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| 123 | !write(unitdates,'(a)') adate//atime |
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| 124 | |
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| 125 | open(unitdates,file=path(2)(1:length(2))//'dates', ACCESS='APPEND') |
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| 126 | write(unitdates,'(a)') adate//atime |
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| 127 | close(unitdates) |
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| 128 | |
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| 129 | ! For forward simulations, output fields have dimension MAXSPEC, |
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| 130 | ! for backward simulations, output fields have dimension MAXPOINT. |
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| 131 | ! Thus, make loops either about nspec, or about numpoint |
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| 132 | !***************************************************************** |
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| 133 | |
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| 134 | |
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| 135 | if (ldirect.eq.1) then |
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| 136 | do ks=1,nspec |
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| 137 | do kp=1,maxpointspec_act |
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| 138 | tot_mu(ks,kp)=1 |
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| 139 | end do |
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| 140 | end do |
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| 141 | else |
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| 142 | do ks=1,nspec |
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| 143 | do kp=1,maxpointspec_act |
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| 144 | tot_mu(ks,kp)=xmass(kp,ks) |
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| 145 | end do |
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| 146 | end do |
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| 147 | endif |
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| 148 | |
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| 149 | |
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| 150 | if (verbosity.eq.1) then |
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| 151 | print*,'concoutput_surf 2' |
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| 152 | CALL SYSTEM_CLOCK(count_clock) |
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| 153 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 154 | endif |
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| 155 | |
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| 156 | !******************************************************************* |
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| 157 | ! Compute air density: sufficiently accurate to take it |
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| 158 | ! from coarse grid at some time |
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| 159 | ! Determine center altitude of output layer, and interpolate density |
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| 160 | ! data to that altitude |
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| 161 | !******************************************************************* |
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| 162 | |
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[5f9d14a] | 163 | mind=memind(2) |
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[8a65cb0] | 164 | do kz=1,numzgrid |
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| 165 | if (kz.eq.1) then |
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| 166 | halfheight=outheight(1)/2. |
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| 167 | else |
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| 168 | halfheight=(outheight(kz)+outheight(kz-1))/2. |
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| 169 | endif |
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| 170 | do kzz=2,nz |
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| 171 | if ((height(kzz-1).lt.halfheight).and. & |
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| 172 | (height(kzz).gt.halfheight)) goto 46 |
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| 173 | end do |
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| 174 | 46 kzz=max(min(kzz,nz),2) |
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| 175 | dz1=halfheight-height(kzz-1) |
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| 176 | dz2=height(kzz)-halfheight |
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| 177 | dz=dz1+dz2 |
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| 178 | do jy=0,numygrid-1 |
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| 179 | do ix=0,numxgrid-1 |
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| 180 | xl=outlon0+real(ix)*dxout |
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| 181 | yl=outlat0+real(jy)*dyout |
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| 182 | xl=(xl-xlon0)/dx |
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| 183 | yl=(yl-ylat0)/dy |
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| 184 | iix=max(min(nint(xl),nxmin1),0) |
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| 185 | jjy=max(min(nint(yl),nymin1),0) |
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[5f9d14a] | 186 | ! densityoutgrid(ix,jy,kz)=(rho(iix,jjy,kzz,2)*dz1+ & |
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| 187 | ! rho(iix,jjy,kzz-1,2)*dz2)/dz |
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| 188 | densityoutgrid(ix,jy,kz)=(rho(iix,jjy,kzz,mind)*dz1+ & |
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| 189 | rho(iix,jjy,kzz-1,mind)*dz2)/dz |
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[8a65cb0] | 190 | end do |
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| 191 | end do |
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| 192 | end do |
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| 193 | |
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[5f9d14a] | 194 | do i=1,numreceptor |
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| 195 | xl=xreceptor(i) |
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| 196 | yl=yreceptor(i) |
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| 197 | iix=max(min(nint(xl),nxmin1),0) |
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| 198 | jjy=max(min(nint(yl),nymin1),0) |
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| 199 | !densityoutrecept(i)=rho(iix,jjy,1,2) |
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| 200 | densityoutrecept(i)=rho(iix,jjy,1,mind) |
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| 201 | end do |
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[8a65cb0] | 202 | |
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| 203 | |
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| 204 | ! Output is different for forward and backward simulations |
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| 205 | do kz=1,numzgrid |
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| 206 | do jy=0,numygrid-1 |
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| 207 | do ix=0,numxgrid-1 |
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| 208 | if (ldirect.eq.1) then |
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| 209 | factor3d(ix,jy,kz)=1.e12/volume(ix,jy,kz)/outnum |
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| 210 | else |
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| 211 | factor3d(ix,jy,kz)=real(abs(loutaver))/outnum |
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| 212 | endif |
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| 213 | end do |
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| 214 | end do |
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| 215 | end do |
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| 216 | |
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| 217 | !********************************************************************* |
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| 218 | ! Determine the standard deviation of the mean concentration or mixing |
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| 219 | ! ratio (uncertainty of the output) and the dry and wet deposition |
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| 220 | !********************************************************************* |
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| 221 | |
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| 222 | if (verbosity.eq.1) then |
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| 223 | print*,'concoutput_surf 3 (sd)' |
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| 224 | CALL SYSTEM_CLOCK(count_clock) |
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| 225 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 226 | endif |
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| 227 | gridtotal=0. |
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| 228 | gridsigmatotal=0. |
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| 229 | gridtotalunc=0. |
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| 230 | wetgridtotal=0. |
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| 231 | wetgridsigmatotal=0. |
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| 232 | wetgridtotalunc=0. |
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| 233 | drygridtotal=0. |
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| 234 | drygridsigmatotal=0. |
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| 235 | drygridtotalunc=0. |
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| 236 | |
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| 237 | do ks=1,nspec |
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| 238 | |
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| 239 | write(anspec,'(i3.3)') ks |
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| 240 | if ((iout.eq.1).or.(iout.eq.3).or.(iout.eq.5)) then |
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| 241 | if (ldirect.eq.1) then |
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| 242 | open(unitoutgrid,file=path(2)(1:length(2))//'grid_conc_'//adate// & |
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| 243 | atime//'_'//anspec,form='unformatted') |
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| 244 | else |
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| 245 | open(unitoutgrid,file=path(2)(1:length(2))//'grid_time_'//adate// & |
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| 246 | atime//'_'//anspec,form='unformatted') |
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| 247 | endif |
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| 248 | write(unitoutgrid) itime |
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| 249 | endif |
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| 250 | |
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| 251 | if ((iout.eq.2).or.(iout.eq.3)) then ! mixing ratio |
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| 252 | open(unitoutgridppt,file=path(2)(1:length(2))//'grid_pptv_'//adate// & |
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| 253 | atime//'_'//anspec,form='unformatted') |
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| 254 | |
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| 255 | write(unitoutgridppt) itime |
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| 256 | endif |
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| 257 | |
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| 258 | do kp=1,maxpointspec_act |
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| 259 | do nage=1,nageclass |
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| 260 | |
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| 261 | do jy=0,numygrid-1 |
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| 262 | do ix=0,numxgrid-1 |
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| 263 | |
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| 264 | ! WET DEPOSITION |
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| 265 | if ((WETDEP).and.(ldirect.gt.0)) then |
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| 266 | do l=1,nclassunc |
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| 267 | auxgrid(l)=wetgridunc0(ix,jy,ks,kp,l,nage) |
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| 268 | end do |
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| 269 | call mean(auxgrid,wetgrid(ix,jy), & |
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| 270 | wetgridsigma(ix,jy),nclassunc) |
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| 271 | ! Multiply by number of classes to get total concentration |
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| 272 | wetgrid(ix,jy)=wetgrid(ix,jy) & |
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| 273 | *nclassunc |
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| 274 | wetgridtotal=wetgridtotal+wetgrid(ix,jy) |
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| 275 | ! Calculate standard deviation of the mean |
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| 276 | wetgridsigma(ix,jy)= & |
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| 277 | wetgridsigma(ix,jy)* & |
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| 278 | sqrt(real(nclassunc)) |
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| 279 | wetgridsigmatotal=wetgridsigmatotal+ & |
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| 280 | wetgridsigma(ix,jy) |
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| 281 | endif |
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| 282 | |
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| 283 | ! DRY DEPOSITION |
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| 284 | if ((DRYDEP).and.(ldirect.gt.0)) then |
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| 285 | do l=1,nclassunc |
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| 286 | auxgrid(l)=drygridunc0(ix,jy,ks,kp,l,nage) |
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| 287 | end do |
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| 288 | call mean(auxgrid,drygrid(ix,jy), & |
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| 289 | drygridsigma(ix,jy),nclassunc) |
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| 290 | ! Multiply by number of classes to get total concentration |
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| 291 | drygrid(ix,jy)=drygrid(ix,jy)* & |
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| 292 | nclassunc |
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| 293 | drygridtotal=drygridtotal+drygrid(ix,jy) |
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| 294 | ! Calculate standard deviation of the mean |
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| 295 | drygridsigma(ix,jy)= & |
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| 296 | drygridsigma(ix,jy)* & |
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| 297 | sqrt(real(nclassunc)) |
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| 298 | 125 drygridsigmatotal=drygridsigmatotal+ & |
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| 299 | drygridsigma(ix,jy) |
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| 300 | endif |
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| 301 | |
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| 302 | ! CONCENTRATION OR MIXING RATIO |
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| 303 | do kz=1,numzgrid |
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| 304 | do l=1,nclassunc |
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| 305 | auxgrid(l)=gridunc(ix,jy,kz,ks,kp,l,nage) |
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| 306 | end do |
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| 307 | call mean(auxgrid,grid(ix,jy,kz), & |
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| 308 | gridsigma(ix,jy,kz),nclassunc) |
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| 309 | ! Multiply by number of classes to get total concentration |
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| 310 | grid(ix,jy,kz)= & |
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| 311 | grid(ix,jy,kz)*nclassunc |
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| 312 | gridtotal=gridtotal+grid(ix,jy,kz) |
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| 313 | ! Calculate standard deviation of the mean |
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| 314 | gridsigma(ix,jy,kz)= & |
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| 315 | gridsigma(ix,jy,kz)* & |
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| 316 | sqrt(real(nclassunc)) |
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| 317 | gridsigmatotal=gridsigmatotal+ & |
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| 318 | gridsigma(ix,jy,kz) |
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| 319 | end do |
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| 320 | end do |
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| 321 | end do |
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| 322 | |
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| 323 | |
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| 324 | !******************************************************************* |
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| 325 | ! Generate output: may be in concentration (ng/m3) or in mixing |
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| 326 | ! ratio (ppt) or both |
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| 327 | ! Output the position and the values alternated multiplied by |
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| 328 | ! 1 or -1, first line is number of values, number of positions |
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| 329 | ! For backward simulations, the unit is seconds, stored in grid_time |
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| 330 | !******************************************************************* |
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| 331 | |
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| 332 | if (verbosity.eq.1) then |
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| 333 | print*,'concoutput_surf 4 (output)' |
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| 334 | CALL SYSTEM_CLOCK(count_clock) |
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| 335 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 336 | endif |
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| 337 | |
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| 338 | ! Concentration output |
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| 339 | !********************* |
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| 340 | |
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| 341 | if ((iout.eq.1).or.(iout.eq.3).or.(iout.eq.5)) then |
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| 342 | |
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| 343 | if (verbosity.eq.1) then |
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| 344 | print*,'concoutput_surf (Wet deposition)' |
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| 345 | CALL SYSTEM_CLOCK(count_clock) |
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| 346 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 347 | endif |
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| 348 | |
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| 349 | ! Wet deposition |
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| 350 | sp_count_i=0 |
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| 351 | sp_count_r=0 |
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| 352 | sp_fact=-1. |
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| 353 | sp_zer=.true. |
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| 354 | if ((ldirect.eq.1).and.(WETDEP)) then |
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| 355 | do jy=0,numygrid-1 |
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| 356 | do ix=0,numxgrid-1 |
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| 357 | ! concentraion greater zero |
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| 358 | if (wetgrid(ix,jy).gt.smallnum) then |
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| 359 | if (sp_zer.eqv..true.) then ! first non zero value |
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| 360 | sp_count_i=sp_count_i+1 |
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| 361 | sparse_dump_i(sp_count_i)=ix+jy*numxgrid |
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| 362 | sp_zer=.false. |
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| 363 | sp_fact=sp_fact*(-1.) |
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| 364 | endif |
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| 365 | sp_count_r=sp_count_r+1 |
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| 366 | sparse_dump_r(sp_count_r)= & |
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| 367 | sp_fact*1.e12*wetgrid(ix,jy)/area(ix,jy) |
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| 368 | sparse_dump_u(sp_count_r)= & |
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| 369 | 1.e12*wetgridsigma(ix,jy)/area(ix,jy) |
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| 370 | else ! concentration is zero |
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| 371 | sp_zer=.true. |
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| 372 | endif |
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| 373 | end do |
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| 374 | end do |
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| 375 | else |
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| 376 | sp_count_i=0 |
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| 377 | sp_count_r=0 |
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| 378 | endif |
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| 379 | write(unitoutgrid) sp_count_i |
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| 380 | write(unitoutgrid) (sparse_dump_i(i),i=1,sp_count_i) |
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| 381 | write(unitoutgrid) sp_count_r |
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| 382 | write(unitoutgrid) (sparse_dump_r(i),i=1,sp_count_r) |
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| 383 | ! write(unitoutgrid) (sparse_dump_u(i),i=1,sp_count_r) |
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| 384 | |
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| 385 | if (verbosity.eq.1) then |
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| 386 | print*,'concoutput_surf (Dry deposition)' |
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| 387 | CALL SYSTEM_CLOCK(count_clock) |
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| 388 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 389 | endif |
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| 390 | ! Dry deposition |
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| 391 | sp_count_i=0 |
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| 392 | sp_count_r=0 |
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| 393 | sp_fact=-1. |
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| 394 | sp_zer=.true. |
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| 395 | if ((ldirect.eq.1).and.(DRYDEP)) then |
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| 396 | do jy=0,numygrid-1 |
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| 397 | do ix=0,numxgrid-1 |
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| 398 | if (drygrid(ix,jy).gt.smallnum) then |
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| 399 | if (sp_zer.eqv..true.) then ! first non zero value |
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| 400 | sp_count_i=sp_count_i+1 |
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| 401 | sparse_dump_i(sp_count_i)=ix+jy*numxgrid |
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| 402 | sp_zer=.false. |
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| 403 | sp_fact=sp_fact*(-1.) |
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| 404 | endif |
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| 405 | sp_count_r=sp_count_r+1 |
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| 406 | sparse_dump_r(sp_count_r)= & |
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| 407 | sp_fact* & |
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| 408 | 1.e12*drygrid(ix,jy)/area(ix,jy) |
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| 409 | sparse_dump_u(sp_count_r)= & |
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| 410 | 1.e12*drygridsigma(ix,jy)/area(ix,jy) |
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| 411 | else ! concentration is zero |
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| 412 | sp_zer=.true. |
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| 413 | endif |
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| 414 | end do |
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| 415 | end do |
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| 416 | else |
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| 417 | sp_count_i=0 |
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| 418 | sp_count_r=0 |
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| 419 | endif |
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| 420 | write(unitoutgrid) sp_count_i |
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| 421 | write(unitoutgrid) (sparse_dump_i(i),i=1,sp_count_i) |
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| 422 | write(unitoutgrid) sp_count_r |
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| 423 | write(unitoutgrid) (sparse_dump_r(i),i=1,sp_count_r) |
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| 424 | ! write(unitoutgrid) (sparse_dump_u(i),i=1,sp_count_r) |
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| 425 | |
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| 426 | if (verbosity.eq.1) then |
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| 427 | print*,'concoutput_surf (Concentrations)' |
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| 428 | CALL SYSTEM_CLOCK(count_clock) |
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| 429 | WRITE(*,*) 'SYSTEM_CLOCK',count_clock - count_clock0 |
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| 430 | endif |
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| 431 | |
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| 432 | ! Concentrations |
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| 433 | |
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| 434 | ! surf_only write only 1st layer |
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| 435 | |
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| 436 | sp_count_i=0 |
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| 437 | sp_count_r=0 |
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| 438 | sp_fact=-1. |
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| 439 | sp_zer=.true. |
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| 440 | do kz=1,1 |
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| 441 | do jy=0,numygrid-1 |
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| 442 | do ix=0,numxgrid-1 |
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| 443 | if (grid(ix,jy,kz).gt.smallnum) then |
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| 444 | if (sp_zer.eqv..true.) then ! first non zero value |
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| 445 | sp_count_i=sp_count_i+1 |
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| 446 | sparse_dump_i(sp_count_i)= & |
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| 447 | ix+jy*numxgrid+kz*numxgrid*numygrid |
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| 448 | sp_zer=.false. |
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| 449 | sp_fact=sp_fact*(-1.) |
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| 450 | endif |
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| 451 | sp_count_r=sp_count_r+1 |
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| 452 | sparse_dump_r(sp_count_r)= & |
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| 453 | sp_fact* & |
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| 454 | grid(ix,jy,kz)* & |
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| 455 | factor3d(ix,jy,kz)/tot_mu(ks,kp) |
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| 456 | ! if ((factor(ix,jy,kz)/tot_mu(ks,kp)).eq.0) |
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| 457 | ! + write (*,*) factor(ix,jy,kz),tot_mu(ks,kp),ks,kp |
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| 458 | sparse_dump_u(sp_count_r)= & |
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| 459 | gridsigma(ix,jy,kz)* & |
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| 460 | factor3d(ix,jy,kz)/tot_mu(ks,kp) |
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| 461 | else ! concentration is zero |
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| 462 | sp_zer=.true. |
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| 463 | endif |
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| 464 | end do |
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| 465 | end do |
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| 466 | end do |
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| 467 | write(unitoutgrid) sp_count_i |
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| 468 | write(unitoutgrid) (sparse_dump_i(i),i=1,sp_count_i) |
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| 469 | write(unitoutgrid) sp_count_r |
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| 470 | write(unitoutgrid) (sparse_dump_r(i),i=1,sp_count_r) |
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| 471 | ! write(unitoutgrid) (sparse_dump_u(i),i=1,sp_count_r) |
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| 472 | |
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| 473 | endif ! concentration output |
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| 474 | |
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| 475 | ! Mixing ratio output |
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| 476 | !******************** |
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| 477 | |
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| 478 | if ((iout.eq.2).or.(iout.eq.3)) then ! mixing ratio |
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| 479 | |
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| 480 | ! Wet deposition |
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| 481 | sp_count_i=0 |
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| 482 | sp_count_r=0 |
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| 483 | sp_fact=-1. |
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| 484 | sp_zer=.true. |
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| 485 | if ((ldirect.eq.1).and.(WETDEP)) then |
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| 486 | do jy=0,numygrid-1 |
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| 487 | do ix=0,numxgrid-1 |
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| 488 | if (wetgrid(ix,jy).gt.smallnum) then |
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| 489 | if (sp_zer.eqv..true.) then ! first non zero value |
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| 490 | sp_count_i=sp_count_i+1 |
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| 491 | sparse_dump_i(sp_count_i)= & |
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| 492 | ix+jy*numxgrid |
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| 493 | sp_zer=.false. |
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| 494 | sp_fact=sp_fact*(-1.) |
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| 495 | endif |
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| 496 | sp_count_r=sp_count_r+1 |
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| 497 | sparse_dump_r(sp_count_r)= & |
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| 498 | sp_fact* & |
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| 499 | 1.e12*wetgrid(ix,jy)/area(ix,jy) |
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| 500 | sparse_dump_u(sp_count_r)= & |
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| 501 | 1.e12*wetgridsigma(ix,jy)/area(ix,jy) |
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| 502 | else ! concentration is zero |
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| 503 | sp_zer=.true. |
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| 504 | endif |
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| 505 | end do |
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| 506 | end do |
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| 507 | else |
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| 508 | sp_count_i=0 |
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| 509 | sp_count_r=0 |
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| 510 | endif |
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| 511 | write(unitoutgridppt) sp_count_i |
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| 512 | write(unitoutgridppt) (sparse_dump_i(i),i=1,sp_count_i) |
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| 513 | write(unitoutgridppt) sp_count_r |
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| 514 | write(unitoutgridppt) (sparse_dump_r(i),i=1,sp_count_r) |
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| 515 | ! write(unitoutgridppt) (sparse_dump_u(i),i=1,sp_count_r) |
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| 516 | |
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| 517 | |
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| 518 | ! Dry deposition |
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| 519 | sp_count_i=0 |
---|
| 520 | sp_count_r=0 |
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| 521 | sp_fact=-1. |
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| 522 | sp_zer=.true. |
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| 523 | if ((ldirect.eq.1).and.(DRYDEP)) then |
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| 524 | do jy=0,numygrid-1 |
---|
| 525 | do ix=0,numxgrid-1 |
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| 526 | if (drygrid(ix,jy).gt.smallnum) then |
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| 527 | if (sp_zer.eqv..true.) then ! first non zero value |
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| 528 | sp_count_i=sp_count_i+1 |
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| 529 | sparse_dump_i(sp_count_i)= & |
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| 530 | ix+jy*numxgrid |
---|
| 531 | sp_zer=.false. |
---|
| 532 | sp_fact=sp_fact*(-1) |
---|
| 533 | endif |
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| 534 | sp_count_r=sp_count_r+1 |
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| 535 | sparse_dump_r(sp_count_r)= & |
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| 536 | sp_fact* & |
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| 537 | 1.e12*drygrid(ix,jy)/area(ix,jy) |
---|
| 538 | sparse_dump_u(sp_count_r)= & |
---|
| 539 | 1.e12*drygridsigma(ix,jy)/area(ix,jy) |
---|
| 540 | else ! concentration is zero |
---|
| 541 | sp_zer=.true. |
---|
| 542 | endif |
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| 543 | end do |
---|
| 544 | end do |
---|
| 545 | else |
---|
| 546 | sp_count_i=0 |
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| 547 | sp_count_r=0 |
---|
| 548 | endif |
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| 549 | write(unitoutgridppt) sp_count_i |
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| 550 | write(unitoutgridppt) (sparse_dump_i(i),i=1,sp_count_i) |
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| 551 | write(unitoutgridppt) sp_count_r |
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| 552 | write(unitoutgridppt) (sparse_dump_r(i),i=1,sp_count_r) |
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| 553 | ! write(unitoutgridppt) (sparse_dump_u(i),i=1,sp_count_r) |
---|
| 554 | |
---|
| 555 | |
---|
| 556 | ! Mixing ratios |
---|
| 557 | |
---|
| 558 | ! surf_only write only 1st layer |
---|
| 559 | |
---|
| 560 | sp_count_i=0 |
---|
| 561 | sp_count_r=0 |
---|
| 562 | sp_fact=-1. |
---|
| 563 | sp_zer=.true. |
---|
| 564 | do kz=1,1 |
---|
| 565 | do jy=0,numygrid-1 |
---|
| 566 | do ix=0,numxgrid-1 |
---|
| 567 | if (grid(ix,jy,kz).gt.smallnum) then |
---|
| 568 | if (sp_zer.eqv..true.) then ! first non zero value |
---|
| 569 | sp_count_i=sp_count_i+1 |
---|
| 570 | sparse_dump_i(sp_count_i)= & |
---|
| 571 | ix+jy*numxgrid+kz*numxgrid*numygrid |
---|
| 572 | sp_zer=.false. |
---|
| 573 | sp_fact=sp_fact*(-1.) |
---|
| 574 | endif |
---|
| 575 | sp_count_r=sp_count_r+1 |
---|
| 576 | sparse_dump_r(sp_count_r)= & |
---|
| 577 | sp_fact* & |
---|
| 578 | 1.e12*grid(ix,jy,kz) & |
---|
| 579 | /volume(ix,jy,kz)/outnum* & |
---|
| 580 | weightair/weightmolar(ks)/densityoutgrid(ix,jy,kz) |
---|
| 581 | sparse_dump_u(sp_count_r)= & |
---|
| 582 | 1.e12*gridsigma(ix,jy,kz)/volume(ix,jy,kz)/ & |
---|
| 583 | outnum*weightair/weightmolar(ks)/ & |
---|
| 584 | densityoutgrid(ix,jy,kz) |
---|
| 585 | else ! concentration is zero |
---|
| 586 | sp_zer=.true. |
---|
| 587 | endif |
---|
| 588 | end do |
---|
| 589 | end do |
---|
| 590 | end do |
---|
| 591 | write(unitoutgridppt) sp_count_i |
---|
| 592 | write(unitoutgridppt) (sparse_dump_i(i),i=1,sp_count_i) |
---|
| 593 | write(unitoutgridppt) sp_count_r |
---|
| 594 | write(unitoutgridppt) (sparse_dump_r(i),i=1,sp_count_r) |
---|
| 595 | ! write(unitoutgridppt) (sparse_dump_u(i),i=1,sp_count_r) |
---|
| 596 | |
---|
| 597 | endif ! output for ppt |
---|
| 598 | |
---|
| 599 | end do |
---|
| 600 | end do |
---|
| 601 | |
---|
| 602 | close(unitoutgridppt) |
---|
| 603 | close(unitoutgrid) |
---|
| 604 | |
---|
| 605 | end do |
---|
| 606 | |
---|
| 607 | if (gridtotal.gt.0.) gridtotalunc=gridsigmatotal/gridtotal |
---|
| 608 | if (wetgridtotal.gt.0.) wetgridtotalunc=wetgridsigmatotal/ & |
---|
| 609 | wetgridtotal |
---|
| 610 | if (drygridtotal.gt.0.) drygridtotalunc=drygridsigmatotal/ & |
---|
| 611 | drygridtotal |
---|
| 612 | |
---|
| 613 | ! Dump of receptor concentrations |
---|
| 614 | |
---|
| 615 | if (numreceptor.gt.0 .and. (iout.eq.2 .or. iout.eq.3) ) then |
---|
| 616 | write(unitoutreceptppt) itime |
---|
| 617 | do ks=1,nspec |
---|
| 618 | write(unitoutreceptppt) (1.e12*creceptor(i,ks)/outnum* & |
---|
| 619 | weightair/weightmolar(ks)/densityoutrecept(i),i=1,numreceptor) |
---|
| 620 | end do |
---|
| 621 | endif |
---|
| 622 | |
---|
| 623 | ! Dump of receptor concentrations |
---|
| 624 | |
---|
| 625 | if (numreceptor.gt.0) then |
---|
| 626 | write(unitoutrecept) itime |
---|
| 627 | do ks=1,nspec |
---|
| 628 | write(unitoutrecept) (1.e12*creceptor(i,ks)/outnum, & |
---|
| 629 | i=1,numreceptor) |
---|
| 630 | end do |
---|
| 631 | endif |
---|
| 632 | |
---|
| 633 | |
---|
| 634 | |
---|
| 635 | ! Reinitialization of grid |
---|
| 636 | !************************* |
---|
| 637 | |
---|
| 638 | do ks=1,nspec |
---|
| 639 | do kp=1,maxpointspec_act |
---|
| 640 | do i=1,numreceptor |
---|
| 641 | creceptor(i,ks)=0. |
---|
| 642 | end do |
---|
| 643 | do jy=0,numygrid-1 |
---|
| 644 | do ix=0,numxgrid-1 |
---|
| 645 | do l=1,nclassunc |
---|
| 646 | do nage=1,nageclass |
---|
| 647 | do kz=1,numzgrid |
---|
| 648 | gridunc(ix,jy,kz,ks,kp,l,nage)=0. |
---|
| 649 | end do |
---|
| 650 | end do |
---|
| 651 | end do |
---|
| 652 | end do |
---|
| 653 | end do |
---|
| 654 | end do |
---|
| 655 | end do |
---|
| 656 | |
---|
[5f9d14a] | 657 | if (mp_measure_time) call mpif_mtime('rootonly',1) |
---|
| 658 | |
---|
[8a65cb0] | 659 | end subroutine concoutput_surf |
---|