[4007] | 1 | #--reworked 7/2018 for scenario emissions, ThL |
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| 2 | #--updated on 5/2/2018 with new paths, ThL |
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| 3 | #--updated on 4/5/2017 with improved Sheng & Zwiers algorithm, ThL |
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| 4 | #--corrected some interpolation preprocessing (compared to v4) |
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| 5 | #--updated on 5/5/2017 with correction factor (30/46) on NOx vs. NO |
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| 6 | #--updated on 9/5/2017 with output separation BB/anthro for SO2, NOx and NH3 |
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| 7 | #--corrected on 22/6/2017 for BB: undef values zeroed before remapping |
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| 8 | #--corrected on 26/09/2017 for NOx units: PNNL dataset is kg NO2, VUA is kg NO. |
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| 9 | # INCA expects NO in its AER version. |
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| 10 | # |
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| 11 | #INCA conc_dms flx_nox flx_bc flx_pom flx_bbbc flx_bbpom flx_so2 flx_so4 flx_h2s flx_nh3 |
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| 12 | #CMIP6 species NOx BC OC SO2 NH3 |
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| 13 | # + NMVOC CO |
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| 14 | |
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| 15 | #--INCA example file where dms_conc can be reused |
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| 16 | fileINCAex="/home/oboucher/CMIP6/AER_EMISSIONS/INCAfile/sflx_lmdz_phy_1997.nc" |
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| 17 | |
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| 18 | #--input directory for emissions |
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| 19 | dirin="/prodigfs/project/input4MIPs/CMIP6/ScenarioMIP/IAMC/" |
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| 20 | |
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| 21 | #--LMDz grid information |
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| 22 | grid="144x143" |
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| 23 | gridfile="../GRID/grid-lmdz-lonlat_"${grid} |
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| 24 | nbpoint=$((144*141+2)) |
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| 25 | |
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| 26 | for scen in "ssp119" "ssp126" "ssp245" "ssp370" "ssp434" "ssp460" "ssp534-over" "ssp585" |
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| 27 | do |
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| 28 | |
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| 29 | #--output directory |
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| 30 | dirout="/data/"${USER}"/CMIP6/AEROSOL/ScenarioMIP/${scen}/v1/" |
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| 31 | if [ ! -d ${dirout} ] ; then mkdir -p ${dirout} ; fi |
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| 32 | |
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| 33 | if [ ${scen} == "ssp119" ] ; then prefix="IMAGE" ; fi |
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| 34 | if [ ${scen} == "ssp126" ] ; then prefix="IMAGE" ; fi |
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| 35 | if [ ${scen} == "ssp245" ] ; then prefix="MESSAGE-GLOBIOM" ; fi |
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| 36 | if [ ${scen} == "ssp370" ] ; then prefix="AIM" ; fi |
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| 37 | if [ ${scen} == "ssp434" ] ; then prefix="GCAM4" ; fi |
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| 38 | if [ ${scen} == "ssp460" ] ; then prefix="GCAM4" ; fi |
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| 39 | if [ ${scen} == "ssp534-over" ] ; then prefix="REMIND-MAGPIE" ; fi |
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| 40 | if [ ${scen} == "ssp585" ] ; then prefix="REMIND-MAGPIE" ; fi |
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| 41 | |
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| 42 | #--Unique file for the whole period, so fixed variables: |
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| 43 | year1=2015 |
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| 44 | year2=2100 |
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| 45 | |
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| 46 | #--Loop on species (anthro) |
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| 47 | for species in "BC" "NOx" "OC" "SO2" "NH3" |
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| 48 | do |
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| 49 | |
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| 50 | echo "... "${year}" : Dealing with "${species}" anthro input file..." |
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| 51 | |
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| 52 | if [ ${species} = "BC" ] ; then speciesinca="bc" ; fi |
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| 53 | if [ ${species} = "NOx" ] ; then speciesinca="nox" ; fi |
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| 54 | if [ ${species} = "OC" ] ; then speciesinca="pom" ; fi |
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| 55 | if [ ${species} = "SO2" ] ; then speciesinca="so2" ; fi |
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| 56 | if [ ${species} = "NH3" ] ; then speciesinca="nh3" ; fi |
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| 57 | |
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| 58 | if [ ${species} = "BC" ] ; then speciesUp="BC" ; fi |
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| 59 | if [ ${species} = "NOx" ] ; then speciesUp="NOX" ; fi |
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| 60 | if [ ${species} = "OC" ] ; then speciesUp="OC" ; fi |
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| 61 | if [ ${species} = "SO2" ] ; then speciesUp="SO2" ; fi |
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| 62 | if [ ${species} = "NH3" ] ; then speciesUp="NH3" ; fi |
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| 63 | |
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| 64 | #--input file anthro |
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| 65 | filename=${dirin}IAMC-${prefix}-${scen}-1-1/atmos/mon/${species}_em_anthro/gn/v20180628/${species}-em-anthro_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12.nc |
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| 66 | |
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| 67 | #--input file summed over sectors |
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| 68 | filesum=${dirout}${species}-em-anthro_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_sum.nc |
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| 69 | #--reworked input file |
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| 70 | filetmp=${dirout}${species}-em-anthro_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_tmp.nc |
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| 71 | #--time-interpolated input file |
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| 72 | fileintanthro=${dirout}${species}-em-anthro_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_interp.nc |
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| 73 | |
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| 74 | if [ -f ${fileintanthro} ] |
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| 75 | then |
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| 76 | echo "...Nothing to do!" |
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| 77 | else |
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| 78 | |
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| 79 | rm -f ${filesum} ${filetmp} ${fileintanthro} |
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| 80 | |
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| 81 | #--re-formatting the input file |
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| 82 | #--summing over sectors |
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| 83 | rm -f sumsectors.jnl |
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| 84 | cat << eod > sumsectors.jnl |
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| 85 | set memory/size=100 |
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| 86 | use "${filename}" |
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| 87 | save/clobber/file="${filesum}" ${species}_EM_ANTHRO[k=@sum] |
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| 88 | eod |
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| 89 | #--run ferret script |
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| 90 | ferret << eod |
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| 91 | go sumsectors.jnl |
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| 92 | exit |
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| 93 | eod |
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| 94 | |
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| 95 | #--reformatting input file for IDL to be able to read |
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| 96 | ncks -3 ${filesum} ${filetmp} |
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| 97 | #--cleaning up |
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| 98 | rm -f ${filesum} |
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| 99 | |
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| 100 | #--IDL code for time interpolation, to fill in 9-year gaps in input file |
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| 101 | rm -f time_interp_over_gaps.pro |
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| 102 | cat << eod >> time_interp_over_gaps.pro |
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| 103 | pro time_interp_over_gaps |
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| 104 | |
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| 105 | ; Les dimensions des fichiers |
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| 106 | nlon=720 |
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| 107 | nlat=360 |
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| 108 | nt=1032 |
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| 109 | |
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| 110 | une_annee=[31,30,29,31,30,31,30,31,31,30,31,30] |
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| 111 | les_mois = [31,28,31,30,31,30,31,31,30,31,30,31] |
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| 112 | |
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| 113 | jours_in = [15, 45, 74, 105, 135, 166, 196, 227, 258, 288, 319, 349, 1840, 1870, $ |
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| 114 | 1899, 1930, 1960, 1991, 2021, 2052, 2083, 2113, 2144, 2174, 5490, 5520, $ |
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| 115 | 5549, 5580, 5610, 5641, 5671, 5702, 5733, 5763, 5794, 5824, 9140, 9170, $ |
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| 116 | 9199, 9230, 9260, 9291, 9321, 9352, 9383, 9413, 9444, 9474, 12790, 12820, $ |
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| 117 | 12849, 12880, 12910, 12941, 12971, 13002, 13033, 13063, 13094, 13124, $ |
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| 118 | 16440, 16470, 16499, 16530, 16560, 16591, 16621, 16652, 16683, 16713, $ |
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| 119 | 16744, 16774, 20090, 20120, 20149, 20180, 20210, 20241, 20271, 20302, $ |
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| 120 | 20333, 20363, 20394, 20424, 23740, 23770, 23799, 23830, 23860, 23891, $ |
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| 121 | 23921, 23952, 23983, 24013, 24044, 24074, 27390, 27420, 27449, 27480, $ |
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| 122 | 27510, 27541, 27571, 27602, 27633, 27663, 27694, 27724, 31040, 31070, $ |
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| 123 | 31099, 31130, 31160, 31191, 31221, 31252, 31283, 31313, 31344, 31374] |
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| 124 | |
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| 125 | jours_out=make_array(1032) |
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| 126 | jours_out(0) = 15 |
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| 127 | for cpt=1,1031 do jours_out(cpt) = jours_out(cpt-1) + une_annee(cpt mod 12) |
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| 128 | |
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| 129 | idin = ncdf_open('${filetmp}') |
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| 130 | varid = ncdf_varid(idin,'${speciesUp}_EM_ANTHRO') |
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| 131 | lonid = ncdf_varid(idin,'LON') |
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| 132 | latid = ncdf_varid(idin,'LAT') |
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| 133 | ;lonbndid = ncdf_varid(idin,'LON_bnds') |
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| 134 | ;latbndid = ncdf_varid(idin,'LAT_bnds') |
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| 135 | timbndid = ncdf_varid(idin,'TIME_bnds') |
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| 136 | ncdf_varget, idin, varid, emiss_init |
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| 137 | ncdf_attget, idin, varid, "units", emiss_unit |
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| 138 | ncdf_attget, idin, varid, "long_name", emiss_longname |
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| 139 | ncdf_varget, idin, lonid, lon |
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| 140 | ncdf_varget, idin, latid, lat |
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| 141 | ;ncdf_varget, idin, lonbndid, lonbnds |
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| 142 | ;ncdf_varget, idin, latbndid, latbnds |
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| 143 | ncdf_varget, idin, timbndid, timbnds_in |
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| 144 | ncdf_close, idin |
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| 145 | |
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| 146 | timbnds_out = make_array(2,1032) |
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| 147 | timbnds_out(*,0) = [0,31] |
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| 148 | timbnds_out(*,1) = [31,59] |
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| 149 | for cpt=2,1031 do timbnds_out(0,cpt) = timbnds_out(0,cpt-1) + les_mois((cpt-1) mod 12) |
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| 150 | for cpt=1,1030 do timbnds_out(1,cpt) = timbnds_out(0,cpt+1) |
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| 151 | timbnds_out(1,1031) = 31390 |
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| 152 | |
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| 153 | emiss_interpol=make_array(nlon,nlat,1032,value=0.) |
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| 154 | |
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| 155 | indices_out_mois = make_array(86,12,value=0) |
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| 156 | for m=0,11 do begin |
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| 157 | for n=0,85 do indices_out_mois(n,m) = 12*n + m |
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| 158 | endfor |
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| 159 | |
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| 160 | jours_out_mois = make_array(86,12,value=0) |
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| 161 | for n=0,85 do begin |
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| 162 | for m=0,11 do jours_out_mois(n,m) = jours_out(indices_out_mois(n,m)) |
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| 163 | endfor |
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| 164 | |
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| 165 | jours_in_mois = make_array(n_elements(jours_in)/12,12,value=0) |
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| 166 | for m=0,11 do begin |
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| 167 | for n=0,n_elements(jours_in)/12-1 do jours_in_mois(n,m) = jours_in(n*12 + m) |
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| 168 | endfor |
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| 169 | |
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| 170 | indices_in_mois = make_array(n_elements(jours_in)/12,12,value=0) |
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| 171 | for m=0,11 do begin |
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| 172 | for n=0,n_elements(jours_in)/12-1 do indices_in_mois(n,m) = where(jours_in eq jours_in_mois(n,m)) |
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| 173 | endfor |
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| 174 | |
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| 175 | ; Interpolation mois par mois... |
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| 176 | for i=0,nlon-1 do begin |
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| 177 | for j=0,nlat-1 do begin |
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| 178 | for m=0,11 do begin |
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| 179 | emiss_interpol(i,j,indices_out_mois(*,m)) = interpol(emiss_init(i,j,indices_in_mois(*,m)),jours_in_mois(*,m),jours_out_mois(*,m)) |
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| 180 | endfor |
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| 181 | endfor |
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| 182 | endfor |
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| 183 | |
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| 184 | idout = ncdf_create('${fileintanthro}', /clobber) |
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| 185 | dimlonid = ncdf_dimdef(idout,'lon',nlon) |
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| 186 | dimlatid = ncdf_dimdef(idout,'lat',nlat) |
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| 187 | dimtimid = ncdf_dimdef(idout,'time',1032) |
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| 188 | dimbndid = ncdf_dimdef(idout,'bound',2) |
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| 189 | varlonid = ncdf_vardef(idout, 'lon', [dimlonid], /double) |
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| 190 | varlatid = ncdf_vardef(idout, 'lat', [dimlatid], /double) |
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| 191 | vartimid = ncdf_vardef(idout, 'time', [dimtimid], /double) |
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| 192 | ;varlonbndsid = ncdf_vardef(idout, 'lon_bnds', [dimbndid,dimlonid], /double) |
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| 193 | ;varlatbndsid = ncdf_vardef(idout, 'lat_bnds', [dimbndid,dimlatid], /double) |
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| 194 | vartimbndsid = ncdf_vardef(idout, 'time_bnds', [dimbndid,dimtimid], /double) |
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| 195 | varemissid = ncdf_vardef(idout, '${species}_em_anthro', [dimlonid,dimlatid,dimtimid], /float) |
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| 196 | ncdf_control, idout, /endef |
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| 197 | ncdf_varput, idout, varlonid, lon |
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| 198 | ncdf_varput, idout, varlatid, lat |
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| 199 | ;ncdf_varput, idout, varlonbndsid, lonbnds |
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| 200 | ;ncdf_varput, idout, varlatbndsid, latbnds |
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| 201 | ncdf_varput, idout, vartimbndsid, timbnds_out |
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| 202 | ncdf_varput, idout, varemissid, emiss_interpol |
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| 203 | ncdf_varput, idout, vartimid, jours_out |
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| 204 | ncdf_control, idout, /redef |
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| 205 | ncdf_attput, idout, varlonid, "units", "degrees_east" |
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| 206 | ncdf_attput, idout, varlonid, "long_name", "longitude" |
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| 207 | ncdf_attput, idout, varlonid, "axis", "X" |
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| 208 | ncdf_attput, idout, varlonid, "bounds", "lon_bnds" |
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| 209 | ncdf_attput, idout, varlonid, "modulo", 360. |
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| 210 | ncdf_attput, idout, varlonid, "realtopology", "circular" |
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| 211 | ncdf_attput, idout, varlonid, "standard_name", "longitude" |
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| 212 | ncdf_attput, idout, varlonid, "topology", "circular" |
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| 213 | ncdf_attput, idout, varlatid, "units", "degrees_north" |
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| 214 | ncdf_attput, idout, varlatid, "long_name", "latitude" |
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| 215 | ncdf_attput, idout, varlatid, "axis", "Y" |
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| 216 | ncdf_attput, idout, varlatid, "bounds", "lat_bnds" |
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| 217 | ncdf_attput, idout, varlatid, "realtopology", "linear" |
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| 218 | ncdf_attput, idout, varlatid, "standard_name", "latitude" |
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| 219 | ncdf_attput, idout, varemissid, "units", string(emiss_unit) |
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| 220 | ncdf_attput, idout, varemissid, "_FillValue", 1.e+20 |
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| 221 | ncdf_attput, idout, varemissid, "cell_methods", "time: mean" |
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| 222 | ncdf_attput, idout, varemissid, "long_name", string(emiss_longname) |
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| 223 | ncdf_attput, idout, varemissid, "missing_value", 1.e+20 |
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| 224 | ncdf_attput, idout, vartimid, "units", "days since 2015-01-01 0:0:0" |
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| 225 | ncdf_attput, idout, vartimid, "long_name", "time" |
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| 226 | ncdf_attput, idout, vartimid, "calendar", '365_day' |
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| 227 | ncdf_attput, idout, vartimid, "axis", "T" |
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| 228 | ncdf_attput, idout, vartimid, "bounds", "time_bnds" |
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| 229 | ncdf_attput, idout, vartimid, "realtopology", "linear" |
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| 230 | ncdf_attput, idout, vartimid, "standard_name", "time" |
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| 231 | ncdf_close, idout |
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| 232 | end |
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| 233 | eod |
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| 234 | # |
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| 235 | #--calling IDL |
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| 236 | # |
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| 237 | /opt/idl-6.4/idl/bin/idl << eod |
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| 238 | .r time_interp_over_gaps.pro |
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| 239 | time_interp_over_gaps |
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| 240 | exit |
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| 241 | eod |
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| 242 | # |
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| 243 | |
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| 244 | #--adding lat_bnds and lon_bnds variables |
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| 245 | ncks -A -v lat_bnds,lon_bnds ${filename} ${fileintanthro} |
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| 246 | |
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| 247 | #--cleaning up |
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| 248 | rm -f ${filetmp} |
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| 249 | |
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| 250 | #--end test whether file tmp already exists |
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| 251 | fi |
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| 252 | |
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| 253 | |
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| 254 | |
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| 255 | #--now dealing with the BB input file |
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| 256 | |
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| 257 | echo "... "${year}" : Dealing with "${species}" openburning input file..." |
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| 258 | |
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| 259 | #--input file BB |
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| 260 | filename=${dirin}IAMC-${prefix}-${scen}-1-1/atmos/mon/${species}_em_openburning/gn/v20180628/${species}-em-openburning_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12.nc |
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| 261 | #--reworked input file |
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| 262 | filetmp=${dirout}${species}-em-openburning_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_tmp.nc |
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| 263 | #--time-interpolated input file |
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| 264 | fileintbb=${dirout}${species}-em-openburning_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_interp.nc |
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| 265 | |
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| 266 | if [ -f ${fileintbb} ] |
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| 267 | then |
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| 268 | echo "...Nothing to do!" |
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| 269 | else |
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| 270 | |
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| 271 | rm -f ${filetmp} ${fileintbb} |
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| 272 | |
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| 273 | #--no need to sum over sectors, as none in BB files |
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| 274 | |
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| 275 | #--reformatting input file for IDL to be able to read |
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| 276 | ncks -3 ${filename} ${filetmp} |
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| 277 | |
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| 278 | #--IDL code for time interpolation, to fill in 9-year gaps in input file |
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| 279 | rm -f time_interp_over_gaps.pro |
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| 280 | cat << eod >> time_interp_over_gaps.pro |
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| 281 | pro time_interp_over_gaps |
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| 282 | |
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| 283 | ; Les dimensions des fichiers |
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| 284 | nlon=720 |
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| 285 | nlat=360 |
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| 286 | nt=1032 |
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| 287 | |
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| 288 | une_annee=[31,30,29,31,30,31,30,31,31,30,31,30] |
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| 289 | les_mois = [31,28,31,30,31,30,31,31,30,31,30,31] |
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| 290 | |
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| 291 | jours_in = [15, 45, 74, 105, 135, 166, 196, 227, 258, 288, 319, 349, 1840, 1870, $ |
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| 292 | 1899, 1930, 1960, 1991, 2021, 2052, 2083, 2113, 2144, 2174, 5490, 5520, $ |
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| 293 | 5549, 5580, 5610, 5641, 5671, 5702, 5733, 5763, 5794, 5824, 9140, 9170, $ |
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| 294 | 9199, 9230, 9260, 9291, 9321, 9352, 9383, 9413, 9444, 9474, 12790, 12820, $ |
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| 295 | 12849, 12880, 12910, 12941, 12971, 13002, 13033, 13063, 13094, 13124, $ |
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| 296 | 16440, 16470, 16499, 16530, 16560, 16591, 16621, 16652, 16683, 16713, $ |
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| 297 | 16744, 16774, 20090, 20120, 20149, 20180, 20210, 20241, 20271, 20302, $ |
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| 298 | 20333, 20363, 20394, 20424, 23740, 23770, 23799, 23830, 23860, 23891, $ |
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| 299 | 23921, 23952, 23983, 24013, 24044, 24074, 27390, 27420, 27449, 27480, $ |
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| 300 | 27510, 27541, 27571, 27602, 27633, 27663, 27694, 27724, 31040, 31070, $ |
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| 301 | 31099, 31130, 31160, 31191, 31221, 31252, 31283, 31313, 31344, 31374] |
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| 302 | |
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| 303 | jours_out=make_array(1032) |
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| 304 | jours_out(0) = 15 |
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| 305 | for cpt=1,1031 do jours_out(cpt) = jours_out(cpt-1) + une_annee(cpt mod 12) |
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| 306 | |
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| 307 | idin = ncdf_open('${filetmp}') |
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| 308 | varid = ncdf_varid(idin,'${species}_em_openburning') ; Here, small caps |
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| 309 | lonid = ncdf_varid(idin,'lon') |
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| 310 | latid = ncdf_varid(idin,'lat') |
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| 311 | ;lonbndid = ncdf_varid(idin,'lon_bnds') |
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| 312 | ;latbndid = ncdf_varid(idin,'lat_bnds') |
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| 313 | timbndid = ncdf_varid(idin,'time_bnds') |
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| 314 | ncdf_varget, idin, varid, emiss_init |
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| 315 | ncdf_attget, idin, varid, "units", emiss_unit |
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| 316 | ncdf_attget, idin, varid, "long_name", emiss_longname |
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| 317 | ncdf_varget, idin, lonid, lon |
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| 318 | ncdf_varget, idin, latid, lat |
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| 319 | ;ncdf_varget, idin, lonbndid, lonbnds |
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| 320 | ;ncdf_varget, idin, latbndid, latbnds |
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| 321 | ncdf_varget, idin, timbndid, timbnds_in |
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| 322 | ncdf_close, idin |
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| 323 | |
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| 324 | timbnds_out = make_array(2,1032) |
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| 325 | timbnds_out(*,0) = [0,31] |
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| 326 | timbnds_out(*,1) = [31,59] |
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| 327 | for cpt=2,1031 do timbnds_out(0,cpt) = timbnds_out(0,cpt-1) + une_annee((cpt-1) mod 12) |
---|
| 328 | for cpt=1,1030 do timbnds_out(1,cpt) = timbnds_out(0,cpt+1) |
---|
| 329 | timbnds_out(1,1031) = 31390 |
---|
| 330 | |
---|
| 331 | emiss_interpol=make_array(nlon,nlat,1032,value=0.) |
---|
| 332 | |
---|
| 333 | indices_out_mois = make_array(86,12,value=0) |
---|
| 334 | for m=0,11 do begin |
---|
| 335 | for n=0,85 do indices_out_mois(n,m) = 12*n + m |
---|
| 336 | endfor |
---|
| 337 | |
---|
| 338 | jours_out_mois = make_array(86,12,value=0) |
---|
| 339 | for n=0,85 do begin |
---|
| 340 | for m=0,11 do jours_out_mois(n,m) = jours_out(indices_out_mois(n,m)) |
---|
| 341 | endfor |
---|
| 342 | |
---|
| 343 | jours_in_mois = make_array(n_elements(jours_in)/12,12,value=0) |
---|
| 344 | for m=0,11 do begin |
---|
| 345 | for n=0,n_elements(jours_in)/12-1 do jours_in_mois(n,m) = jours_in(n*12 + m) |
---|
| 346 | endfor |
---|
| 347 | |
---|
| 348 | indices_in_mois = make_array(n_elements(jours_in)/12,12,value=0) |
---|
| 349 | for m=0,11 do begin |
---|
| 350 | for n=0,n_elements(jours_in)/12-1 do indices_in_mois(n,m) = where(jours_in eq jours_in_mois(n,m)) |
---|
| 351 | endfor |
---|
| 352 | |
---|
| 353 | ; Interpolation mois par mois... |
---|
| 354 | for i=0,nlon-1 do begin |
---|
| 355 | for j=0,nlat-1 do begin |
---|
| 356 | for m=0,11 do begin |
---|
| 357 | emiss_interpol(i,j,indices_out_mois(*,m)) = interpol(emiss_init(i,j,indices_in_mois(*,m)),jours_in_mois(*,m),jours_out_mois(*,m)) |
---|
| 358 | endfor |
---|
| 359 | endfor |
---|
| 360 | endfor |
---|
| 361 | |
---|
| 362 | idout = ncdf_create('${fileintbb}', /clobber) |
---|
| 363 | dimlonid = ncdf_dimdef(idout,'lon',nlon) |
---|
| 364 | dimlatid = ncdf_dimdef(idout,'lat',nlat) |
---|
| 365 | dimtimid = ncdf_dimdef(idout,'time',1032) |
---|
| 366 | dimbndid = ncdf_dimdef(idout,'bound',2) |
---|
| 367 | varlonid = ncdf_vardef(idout, 'lon', [dimlonid], /double) |
---|
| 368 | varlatid = ncdf_vardef(idout, 'lat', [dimlatid], /double) |
---|
| 369 | vartimid = ncdf_vardef(idout, 'time', [dimtimid], /double) |
---|
| 370 | ;varlonbndsid = ncdf_vardef(idout, 'lon_bnds', [dimbndid,dimlonid], /double) |
---|
| 371 | ;varlatbndsid = ncdf_vardef(idout, 'lat_bnds', [dimbndid,dimlatid], /double) |
---|
| 372 | vartimbndsid = ncdf_vardef(idout, 'time_bnds', [dimbndid,dimtimid], /double) |
---|
| 373 | varemissid = ncdf_vardef(idout, '${species}_em_openburning', [dimlonid,dimlatid,dimtimid], /float) |
---|
| 374 | ncdf_control, idout, /endef |
---|
| 375 | ncdf_varput, idout, varlonid, lon |
---|
| 376 | ncdf_varput, idout, varlatid, lat |
---|
| 377 | ;ncdf_varput, idout, varlonbndsid, lonbnds |
---|
| 378 | ;ncdf_varput, idout, varlatbndsid, latbnds |
---|
| 379 | ncdf_varput, idout, vartimbndsid, timbnds_out |
---|
| 380 | ncdf_varput, idout, varemissid, emiss_interpol |
---|
| 381 | ncdf_varput, idout, vartimid, jours_out |
---|
| 382 | ncdf_control, idout, /redef |
---|
| 383 | ncdf_attput, idout, varlonid, "units", "degrees_east" |
---|
| 384 | ncdf_attput, idout, varlonid, "long_name", "longitude" |
---|
| 385 | ncdf_attput, idout, varlonid, "axis", "X" |
---|
| 386 | ncdf_attput, idout, varlonid, "bounds", "lon_bnds" |
---|
| 387 | ncdf_attput, idout, varlonid, "modulo", 360. |
---|
| 388 | ncdf_attput, idout, varlonid, "realtopology", "circular" |
---|
| 389 | ncdf_attput, idout, varlonid, "standard_name", "longitude" |
---|
| 390 | ncdf_attput, idout, varlonid, "topology", "circular" |
---|
| 391 | ncdf_attput, idout, varlatid, "units", "degrees_north" |
---|
| 392 | ncdf_attput, idout, varlatid, "long_name", "latitude" |
---|
| 393 | ncdf_attput, idout, varlatid, "axis", "Y" |
---|
| 394 | ncdf_attput, idout, varlatid, "bounds", "lat_bnds" |
---|
| 395 | ncdf_attput, idout, varlatid, "realtopology", "linear" |
---|
| 396 | ncdf_attput, idout, varlatid, "standard_name", "latitude" |
---|
| 397 | ncdf_attput, idout, varemissid, "units", string(emiss_unit) |
---|
| 398 | ncdf_attput, idout, varemissid, "_FillValue", 1.e+20 |
---|
| 399 | ncdf_attput, idout, varemissid, "cell_methods", "time: mean" |
---|
| 400 | ncdf_attput, idout, varemissid, "long_name", string(emiss_longname) |
---|
| 401 | ncdf_attput, idout, varemissid, "missing_value", 1.e+20 |
---|
| 402 | ncdf_attput, idout, vartimid, "units", "days since 2015-01-01 0:0:0" |
---|
| 403 | ncdf_attput, idout, vartimid, "long_name", "time" |
---|
| 404 | ncdf_attput, idout, vartimid, "calendar", '365_day' |
---|
| 405 | ncdf_attput, idout, vartimid, "axis", "T" |
---|
| 406 | ncdf_attput, idout, vartimid, "bounds", "time_bnds" |
---|
| 407 | ncdf_attput, idout, vartimid, "realtopology", "linear" |
---|
| 408 | ncdf_attput, idout, vartimid, "standard_name", "time" |
---|
| 409 | ncdf_close, idout |
---|
| 410 | end |
---|
| 411 | eod |
---|
| 412 | # |
---|
| 413 | #--calling IDL |
---|
| 414 | # |
---|
| 415 | /opt/idl-6.4/idl/bin/idl << eod |
---|
| 416 | .r time_interp_over_gaps.pro |
---|
| 417 | time_interp_over_gaps |
---|
| 418 | exit |
---|
| 419 | eod |
---|
| 420 | # |
---|
| 421 | |
---|
| 422 | #--adding lat_bnds and lon_bnds variables |
---|
| 423 | ncks -A -v lat_bnds,lon_bnds ${filename} ${fileintbb} |
---|
| 424 | |
---|
| 425 | #--cleaning up |
---|
| 426 | rm -f ${filetmp} |
---|
| 427 | |
---|
| 428 | #--end test if interpolated file already exists |
---|
| 429 | fi |
---|
| 430 | |
---|
| 431 | #--end loop on species |
---|
| 432 | done |
---|
| 433 | |
---|
| 434 | |
---|
| 435 | |
---|
| 436 | #--anthro and BB input files fileintanthro and fileintbb are now ready, for the whole period and for the current scenario |
---|
| 437 | #--new double loop on species and years |
---|
| 438 | |
---|
| 439 | #--loop on years |
---|
| 440 | for year in {2015..2100} |
---|
| 441 | do |
---|
| 442 | |
---|
| 443 | #--loop on species |
---|
| 444 | for species in "BC" "NOx" "OC" "SO2" "NH3" |
---|
| 445 | do |
---|
| 446 | |
---|
| 447 | if [ ${species} = "BC" ] ; then speciesinca="bc" ; fi |
---|
| 448 | if [ ${species} = "NOx" ] ; then speciesinca="nox" ; fi |
---|
| 449 | if [ ${species} = "OC" ] ; then speciesinca="pom" ; fi |
---|
| 450 | if [ ${species} = "SO2" ] ; then speciesinca="so2" ; fi |
---|
| 451 | if [ ${species} = "NH3" ] ; then speciesinca="nh3" ; fi |
---|
| 452 | |
---|
| 453 | #--dealing with anthro |
---|
| 454 | |
---|
| 455 | #--input file |
---|
| 456 | fileintanthro=${dirout}${species}-em-anthro_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_interp.nc |
---|
| 457 | #--output files |
---|
| 458 | filenameout1=${dirout}flux_${speciesinca}_${year}.nc |
---|
| 459 | filenameout1b=${dirout}flux_0_${speciesinca}_${year}.nc |
---|
| 460 | filenameout2=${dirout}flux_lmdz_${speciesinca}_${year}.nc |
---|
| 461 | filenameout3=${dirout}flux_vector_${speciesinca}_${year}.nc |
---|
| 462 | |
---|
| 463 | echo ${fileintanthro} ${filenameout1} ${filenameout2} ${filenameout3} |
---|
| 464 | rm -f ${filenameout1} ${filenameout2} ${filenameout3} |
---|
| 465 | |
---|
| 466 | #--extracting the correct year |
---|
| 467 | rm -f select_yr.jnl |
---|
| 468 | cat << eod > select_yr.jnl |
---|
| 469 | set memory/size=100 |
---|
| 470 | use "${fileintanthro}" |
---|
| 471 | set region/t=16-jan-${year}:16-dec-${year} |
---|
| 472 | save/clobber/file="${filenameout1}" ${species}_EM_ANTHRO |
---|
| 473 | eod |
---|
| 474 | #--run ferret script |
---|
| 475 | ferret << eod |
---|
| 476 | go select_yr.jnl |
---|
| 477 | exit |
---|
| 478 | eod |
---|
| 479 | |
---|
| 480 | #--replace undef with 0 |
---|
| 481 | cdo setmisstoc,0.0 ${filenameout1} ${filenameout1b} |
---|
| 482 | |
---|
| 483 | #--remap to LMDz grid |
---|
| 484 | #--OC to POM conversion factor |
---|
| 485 | #--otherwise change to capital letters if not (eg NOx) |
---|
| 486 | if [ ${species} == "OC" ] ; then |
---|
| 487 | echo cdo remapcon,${gridfile} -chname,`echo ${species}_EM_ANTHRO | awk '{print toupper($0)}'`,flux -mulc,1.4 ${filenameout1b} ${filenameout2} |
---|
| 488 | cdo remapcon,${gridfile} -chname,`echo ${species}_EM_ANTHRO | awk '{print toupper($0)}'`,flux -mulc,1.4 ${filenameout1b} ${filenameout2} |
---|
| 489 | else |
---|
| 490 | echo cdo remapcon,${gridfile} -chname,`echo ${species}_EM_ANTHRO | awk '{print toupper($0)}'`,flux ${filenameout1b} ${filenameout2} |
---|
| 491 | cdo remapcon,${gridfile} -chname,`echo ${species}_EM_ANTHRO | awk '{print toupper($0)}'`,flux ${filenameout1b} ${filenameout2} |
---|
| 492 | fi |
---|
| 493 | |
---|
| 494 | #--Improved Sheng & Zwiers algorithm + transform into vector |
---|
| 495 | rm -f regrid.pro |
---|
| 496 | cat << eod >> regrid.pro |
---|
| 497 | pro regrid |
---|
| 498 | filename='${filenameout2}' |
---|
| 499 | print, filename |
---|
| 500 | NETCDFREAD,filename,'flux',flux,dimflux |
---|
| 501 | NETCDFREAD,filename,'lat',lat,dimlat0 |
---|
| 502 | NETCDFREAD,filename,'lon',lon,dimlon0 |
---|
| 503 | NETCDFREAD,filename,'TIME',time,dimtime0 |
---|
| 504 | dimlat=dimlat0(0) |
---|
| 505 | dimlon=dimlon0(0) |
---|
| 506 | dimtime=dimtime0(0) |
---|
| 507 | print, 'dim flux=', dimflux |
---|
| 508 | A = float([ [3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8.],$ |
---|
| 509 | [1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0.],$ |
---|
| 510 | [0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0.],$ |
---|
| 511 | [0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0.],$ |
---|
| 512 | [0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0.],$ |
---|
| 513 | [0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0.],$ |
---|
| 514 | [0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0.],$ |
---|
| 515 | [0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0.],$ |
---|
| 516 | [0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0.],$ |
---|
| 517 | [0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0.],$ |
---|
| 518 | [0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8.],$ |
---|
| 519 | [1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4.] ]) |
---|
| 520 | fluxinit=flux |
---|
| 521 | flux_check=flux |
---|
| 522 | for lo=0,dimlon-1 do begin |
---|
| 523 | for la=0,dimlat-1 do begin |
---|
| 524 | flux_check(lo,la,*) = invert(A) ## transpose(fluxinit(lo,la,*)) |
---|
| 525 | endfor |
---|
| 526 | endfor |
---|
| 527 | m_bloq = make_array(dimlon,dimlat,12,value=0) ; Matrice booléenne "mois à bloquer ou non" |
---|
| 528 | if total(where(flux_check lt 0)) ne -1 then m_bloq(where(flux_check lt 0)) = 1 |
---|
| 529 | ; Correction/adaptation de la matrice S&Z en fonction du masque booléen m_bloq |
---|
| 530 | for lo=0,dimlon-1 do begin |
---|
| 531 | for la=0,dimlat-1 do begin |
---|
| 532 | whereneg = where(flux_check(lo,la,*) lt 0) ; (12 pts max) Identification de potentiels points à problÚmes, corrigés négativement |
---|
| 533 | nbannul=n_elements(whereneg)*(total(whereneg) ne -1) |
---|
| 534 | flux_corr=flux_check(lo,la,*) ; Création d'un vecteur pour recevoir les valeurs corrigées, initialisé à flux_check au cas où on n'ait rien à faire d'autre qu'une seule itération |
---|
| 535 | A2 = A ; Je repars de la matrice A initiale, ce pour chaque point de grille |
---|
| 536 | ; ; Potentiellement plusieurs passages pour éliminer toutes les valeurs négatives |
---|
| 537 | while nbannul ne 0 do begin ; Si l'on a effectivement des émissions corrigées négativement... |
---|
| 538 | m_bloq(lo,la,whereneg) = 1 ; Update de la matrice m_bloq |
---|
| 539 | for m=0,11 do begin |
---|
| 540 | if m eq 11 then begin ; Pour plus de facilité, mois précédents et suivants codés ici |
---|
| 541 | p=10 |
---|
| 542 | s=0 |
---|
| 543 | endif else if m eq 0 then begin |
---|
| 544 | p=11 |
---|
| 545 | s=1 |
---|
| 546 | endif else begin |
---|
| 547 | p = m-1 |
---|
| 548 | s = m+1 |
---|
| 549 | endelse |
---|
| 550 | if m_bloq(lo,la,m) then begin ; Je traite les mois bloqués en eux-mêmes |
---|
| 551 | A2(p,m) = 0. |
---|
| 552 | A2(m,m) = 1. |
---|
| 553 | A2(s,m) = 0. |
---|
| 554 | endif ; Fin du cas si l'on est sur un mois bloqué |
---|
| 555 | if ~m_bloq(lo,la,m) then begin ; Je traite les mois non bloqués, pour ceux adjacents à un mois bloqué |
---|
| 556 | if m_bloq(lo,la,p) and m_bloq(lo,la,s) then begin ; Mois encadré de deux mois bloqués |
---|
| 557 | A2(p,m) = 1./4. |
---|
| 558 | A2(m,m) = 1./2. |
---|
| 559 | A2(s,m) = 1./4. |
---|
| 560 | endif else if m_bloq(lo,la,p) and ~m_bloq(lo,la,s) then begin ; Mois précédent bloqué (uniquement) |
---|
| 561 | A2(p,m) = 2./8. |
---|
| 562 | A2(m,m) = 5./8. |
---|
| 563 | A2(s,m) = 1./8. |
---|
| 564 | endif else if ~m_bloq(lo,la,p) and m_bloq(lo,la,s) then begin ; Mois suivant bloqué (uniquement) |
---|
| 565 | A2(p,m) = 1./8. |
---|
| 566 | A2(m,m) = 5./8. |
---|
| 567 | A2(s,m) = 2./8. |
---|
| 568 | endif |
---|
| 569 | endif ; Fin du cas mois non bloqué |
---|
| 570 | endfor ; Fin de la boucle sur les mois, balayage de la matrice |
---|
| 571 | flux_corr = invert(A2) ## transpose(fluxinit(lo,la,*)) ; Ré-itération de la multiplication matricielle avec la matrice A modifiée (A2) |
---|
| 572 | whereneg = where(flux_corr lt 0) ; (12 pts max) Ré-identification de potentiels nouveaux points à problÚmes, corrigés négativement |
---|
| 573 | nbannul=n_elements(whereneg)*(total(whereneg) ne -1) |
---|
| 574 | endwhile ; Fin du cas où l'on avait des problÚmes d'émissions corrigées négativement |
---|
| 575 | ; *** IMPORTANT ! *** Pour signaler les mois bloqués, on prend la convention suivante : |
---|
| 576 | ; valeur négative ou nulle <=> mois bloqué |
---|
| 577 | ; valeur positive <=> mois à interpolation classique |
---|
| 578 | flux(lo,la,*) = flux_corr ; En sortie de la boucle while, normalement flux_corr est complÚtement positif |
---|
| 579 | endfor ; Fin boucle lat |
---|
| 580 | endfor ; Fin boucle lon |
---|
| 581 | nbnegtotal = n_elements(where(m_bloq eq 1)) * (total(where(m_bloq eq 1)) ne -1) |
---|
| 582 | if nbnegtotal ne 0 then flux(where(m_bloq eq 1)) = -flux(where(m_bloq eq 1)) ; Je force à des valeurs négatives |
---|
| 583 | ; |
---|
| 584 | month_in_year=12 |
---|
| 585 | nbpoint=${nbpoint} |
---|
| 586 | flux2=fltarr(nbpoint,month_in_year) |
---|
| 587 | flux2(*,*)=0.0 |
---|
| 588 | ; |
---|
| 589 | for l=0,month_in_year-1 do begin |
---|
| 590 | flux2(0,l)=TOTAL(flux(*,0,l))/float(dimlon) |
---|
| 591 | flux2(nbpoint-1,l)=TOTAL(flux(*,dimlat-1,l))/float(dimlon) |
---|
| 592 | endfor |
---|
| 593 | ; |
---|
| 594 | pt=1 |
---|
| 595 | for j=1,dimlat-2 do begin |
---|
| 596 | for i=0,dimlon-1 do begin |
---|
| 597 | for l=0,month_in_year-1 do begin |
---|
| 598 | flux2(pt,l)=flux(i,j,l) |
---|
| 599 | endfor |
---|
| 600 | pt=pt+1 |
---|
| 601 | endfor |
---|
| 602 | endfor |
---|
| 603 | ; |
---|
| 604 | ;saving netcdf file |
---|
| 605 | ; |
---|
| 606 | fluxstruct={vector:fltarr(nbpoint),time:fltarr(month_in_year), $ |
---|
| 607 | flx_${speciesinca}:fltarr(nbpoint,month_in_year) } |
---|
| 608 | ; |
---|
| 609 | fluxstruct.vector=float(indgen(nbpoint)+1) |
---|
| 610 | ;;fluxstruct.time=float(indgen(month_in_year)+1) |
---|
| 611 | fluxstruct.time=[15, 45, 75, 105, 135, 165, 195, 225, 255, 285, 315, 345] |
---|
| 612 | fluxstruct.flx_${speciesinca}=flux2 |
---|
| 613 | ; |
---|
| 614 | attributes = {units:strarr(3),long_name:strarr(3)} |
---|
| 615 | attributes.units = ['vector','days since 1960-01-01','flux'] |
---|
| 616 | attributes.long_name = ['vector', 'time', 'flux'] |
---|
| 617 | ; |
---|
| 618 | dimensions = {isdim:intarr(3), links:intarr(2,3)} |
---|
| 619 | dimensions.isdim = [1,1,0] ; (1=dimension, 0=variable) |
---|
| 620 | dimensions.links = [ [-1,-1],[-1,-1],[0,1] ] |
---|
| 621 | ; |
---|
| 622 | netcdfwrite,'${filenameout3}',fluxstruct,clobber=1, attributes=attributes, dimensions=dimensions |
---|
| 623 | ; |
---|
| 624 | end |
---|
| 625 | eod |
---|
| 626 | # |
---|
| 627 | #--calling IDL |
---|
| 628 | # |
---|
| 629 | /opt/idl-6.4/idl/bin/idl << eod |
---|
| 630 | .r netcdf |
---|
| 631 | .r netcdfwrite |
---|
| 632 | .r struct_dims |
---|
| 633 | .r regrid |
---|
| 634 | regrid |
---|
| 635 | exit |
---|
| 636 | eod |
---|
| 637 | # |
---|
| 638 | |
---|
| 639 | #--cleaning the mess |
---|
| 640 | rm -f ferret* |
---|
| 641 | rm -f regrid.pro |
---|
| 642 | |
---|
| 643 | |
---|
| 644 | #--now dealing with BB |
---|
| 645 | |
---|
| 646 | #--input file |
---|
| 647 | fileintbb=${dirout}${species}-em-openburning_input4MIPs_emissions_ScenarioMIP_IAMC-${prefix}-${scen}-1-1_gn_${year1}01-${year2}12_interp.nc |
---|
| 648 | #--output files |
---|
| 649 | filenameout1=${dirout}flux_${speciesinca}bb_${year}.nc |
---|
| 650 | filenameout1b=${dirout}flux_0_${speciesinca}bb_${year}.nc |
---|
| 651 | filenameout2=${dirout}flux_lmdz0_${speciesinca}bb_${year}.nc |
---|
| 652 | filenameout3=${dirout}flux_vector_${speciesinca}bb_${year}.nc |
---|
| 653 | |
---|
| 654 | echo ${fileintbb} ${filenameout1} ${filenameout1b} ${filenameout2} ${filenameout3} |
---|
| 655 | rm -f ${filenameout1} ${filenameout1b} ${filenameout2} ${filenameout3} |
---|
| 656 | |
---|
| 657 | #--unfortunately idl not happy with input netcdf files so need to ferretize files |
---|
| 658 | #--I extract the correct year as well; no need to sum up sectors, as none in BB files |
---|
| 659 | rm -f rewrite.jnl |
---|
| 660 | cat << eod > rewrite.jnl |
---|
| 661 | set memory/size=100 |
---|
| 662 | use "${fileintbb}" |
---|
| 663 | set region/t=16-jan-${year}:16-dec-${year} |
---|
| 664 | save/clobber/file="${filenameout1}" ${species}_EM_OPENBURNING |
---|
| 665 | eod |
---|
| 666 | #--run ferret script |
---|
| 667 | ferret << eod |
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| 668 | go rewrite.jnl |
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| 669 | exit |
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| 670 | eod |
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| 671 | |
---|
| 672 | #--replace undef with 0 |
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| 673 | cdo setmisstoc,0.0 ${filenameout1} ${filenameout1b} |
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| 674 | |
---|
| 675 | #--remap to LMDz grid |
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| 676 | #--OC to POM conversion factor |
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| 677 | #--as ferret returns NOX, treat NOx NOX inconsistency in names by converting to upper case |
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| 678 | if [ ${species} != "OC" ] ; then |
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| 679 | echo cdo remapcon,${gridfile} -chname,`echo ${species}_EM_OPENBURNING | awk '{print toupper($0)}'`,flux ${filenameout1b} ${filenameout2} |
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| 680 | cdo remapcon,${gridfile} -chname,`echo ${species}_EM_OPENBURNING | awk '{print toupper($0)}'`,flux ${filenameout1b} ${filenameout2} |
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| 681 | else |
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| 682 | echo cdo remapcon,${gridfile} -chname,${species}_EM_OPENBURNING,flux -mulc,1.4 ${filenameout1b} ${filenameout2} |
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| 683 | cdo remapcon,${gridfile} -chname,${species}_EM_OPENBURNING,flux -mulc,1.4 ${filenameout1b} ${filenameout2} |
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| 684 | fi |
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| 685 | |
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| 686 | #--Improved Sheng & Zwiers algorithm + transform into vector |
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| 687 | rm -f regrid.pro |
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| 688 | cat << eod >> regrid.pro |
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| 689 | pro regrid |
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| 690 | filename='${filenameout2}' |
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| 691 | print, filename |
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| 692 | NETCDFREAD,filename,'flux',flux,dimflux |
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| 693 | NETCDFREAD,filename,'lat',lat,dimlat0 |
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| 694 | NETCDFREAD,filename,'lon',lon,dimlon0 |
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| 695 | NETCDFREAD,filename,'TIME',time,dimtime0 |
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| 696 | dimlat=dimlat0(0) |
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| 697 | dimlon=dimlon0(0) |
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| 698 | dimtime=dimtime0(0) |
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| 699 | print, 'dim flux=', dimflux |
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| 700 | A = float([ [3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8.],$ |
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| 701 | [1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0.],$ |
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| 702 | [0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0., 0.],$ |
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| 703 | [0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0., 0.],$ |
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| 704 | [0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0., 0.],$ |
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| 705 | [0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0., 0.],$ |
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| 706 | [0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0., 0.],$ |
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| 707 | [0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0., 0.],$ |
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| 708 | [0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0., 0.],$ |
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| 709 | [0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8., 0.],$ |
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| 710 | [0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4., 1./8.],$ |
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| 711 | [1./8., 0., 0., 0., 0., 0., 0., 0., 0., 0., 1./8., 3./4.] ]) |
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| 712 | fluxinit=flux |
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| 713 | flux_check=flux |
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| 714 | for lo=0,dimlon-1 do begin |
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| 715 | for la=0,dimlat-1 do begin |
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| 716 | flux_check(lo,la,*) = invert(A) ## transpose(fluxinit(lo,la,*)) |
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| 717 | endfor |
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| 718 | endfor |
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| 719 | m_bloq = make_array(dimlon,dimlat,12,value=0) ; Matrice booléenne "mois à bloquer ou non" |
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| 720 | if total(where(flux_check lt 0)) ne -1 then m_bloq(where(flux_check lt 0)) = 1 |
---|
| 721 | ; Correction/adaptation de la matrice S&Z en fonction du masque booléen m_bloq |
---|
| 722 | for lo=0,dimlon-1 do begin |
---|
| 723 | for la=0,dimlat-1 do begin |
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| 724 | whereneg = where(flux_check(lo,la,*) lt 0) ; (12 pts max) Identification de potentiels points à problÚmes, corrigés négativement |
---|
| 725 | nbannul=n_elements(whereneg)*(total(whereneg) ne -1) |
---|
| 726 | flux_corr=flux_check(lo,la,*) ; Création d'un vecteur pour recevoir les valeurs corrigées, initialisé à flux_check au cas où on n'ait rien à faire (à part 1 seule correction matricielle) |
---|
| 727 | A2 = A ; Je repars de la matrice A initiale, ce pour chaque point de grille |
---|
| 728 | ; ; Potentiellement plusieurs passages pour éliminer toutes les valeurs négatives |
---|
| 729 | while nbannul ne 0 do begin ; Si l'on a effectivement des émissions corrigées négativement... |
---|
| 730 | m_bloq(lo,la,whereneg) = 1 ; Update de la matrice m_bloq |
---|
| 731 | for m=0,11 do begin |
---|
| 732 | if m eq 11 then begin ; Pour plus de facilité, mois précédents et suivants codés ici |
---|
| 733 | p=10 |
---|
| 734 | s=0 |
---|
| 735 | endif else if m eq 0 then begin |
---|
| 736 | p=11 |
---|
| 737 | s=1 |
---|
| 738 | endif else begin |
---|
| 739 | p = m-1 |
---|
| 740 | s = m+1 |
---|
| 741 | endelse |
---|
| 742 | if m_bloq(lo,la,m) then begin ; Je traite les mois bloqués en eux-mêmes |
---|
| 743 | A2(p,m) = 0. |
---|
| 744 | A2(m,m) = 1. |
---|
| 745 | A2(s,m) = 0. |
---|
| 746 | endif ; Fin du cas si l'on est sur un mois bloqué |
---|
| 747 | if ~m_bloq(lo,la,m) then begin ; Je traite les mois non bloqués, pour ceux adjacents à un mois bloqué |
---|
| 748 | if m_bloq(lo,la,p) and m_bloq(lo,la,s) then begin ; Mois encadré de deux mois bloqués |
---|
| 749 | A2(p,m) = 1./4. |
---|
| 750 | A2(m,m) = 1./2. |
---|
| 751 | A2(s,m) = 1./4. |
---|
| 752 | endif else if m_bloq(lo,la,p) and ~m_bloq(lo,la,s) then begin ; Mois précédent bloqué (uniquement) |
---|
| 753 | A2(p,m) = 2./8. |
---|
| 754 | A2(m,m) = 5./8. |
---|
| 755 | A2(s,m) = 1./8. |
---|
| 756 | endif else if ~m_bloq(lo,la,p) and m_bloq(lo,la,s) then begin ; Mois suivant bloqué (uniquement) |
---|
| 757 | A2(p,m) = 1./8. |
---|
| 758 | A2(m,m) = 5./8. |
---|
| 759 | A2(s,m) = 2./8. |
---|
| 760 | endif |
---|
| 761 | endif ; Fin du cas mois non bloqué |
---|
| 762 | endfor ; Fin de la boucle sur les mois, balayage de la matrice |
---|
| 763 | flux_corr = invert(A2) ## transpose(fluxinit(lo,la,*)) ; Ré-itération de la multiplication matricielle avec la matrice A modifiée (A2) |
---|
| 764 | whereneg = where(flux_corr lt 0) ; (12 pts max) Ré-identification de potentiels nouveaux points à problÚmes, corrigés négativement |
---|
| 765 | nbannul=n_elements(whereneg)*(total(whereneg) ne -1) |
---|
| 766 | endwhile ; Fin du cas où l'on avait des problÚmes d'émissions corrigées négativement |
---|
| 767 | ; *** IMPORTANT ! *** Pour signaler les mois bloqués, on prend la convention suivante : |
---|
| 768 | ; valeur négative ou nulle <=> mois bloqué |
---|
| 769 | ; valeur positive <=> mois à interpolation classique |
---|
| 770 | flux(lo,la,*) = flux_corr ; En sortie de la boucle while, normalement flux_corr est complÚtement positif |
---|
| 771 | endfor ; Fin boucle lat |
---|
| 772 | endfor ; Fin boucle lon |
---|
| 773 | nbnegtotal = n_elements(where(m_bloq eq 1)) * (total(where(m_bloq eq 1)) ne -1) |
---|
| 774 | if nbnegtotal ne 0 then flux(where(m_bloq eq 1)) = -flux(where(m_bloq eq 1)) ; Je force à des valeurs négatives |
---|
| 775 | ; |
---|
| 776 | month_in_year=12 |
---|
| 777 | nbpoint=${nbpoint} |
---|
| 778 | flux2=fltarr(nbpoint,month_in_year) |
---|
| 779 | flux2(*,*)=0.0 |
---|
| 780 | ; |
---|
| 781 | for l=0,month_in_year-1 do begin |
---|
| 782 | flux2(0,l)=TOTAL(flux(*,0,l))/float(dimlon) |
---|
| 783 | flux2(nbpoint-1,l)=TOTAL(flux(*,dimlat-1,l))/float(dimlon) |
---|
| 784 | endfor |
---|
| 785 | ; |
---|
| 786 | pt=1 |
---|
| 787 | for j=1,dimlat-2 do begin |
---|
| 788 | for i=0,dimlon-1 do begin |
---|
| 789 | for l=0,month_in_year-1 do begin |
---|
| 790 | flux2(pt,l)=flux(i,j,l) |
---|
| 791 | endfor |
---|
| 792 | pt=pt+1 |
---|
| 793 | endfor |
---|
| 794 | endfor |
---|
| 795 | ; |
---|
| 796 | ;saving netcdf file |
---|
| 797 | ; |
---|
| 798 | fluxstruct={vector:fltarr(nbpoint),time:fltarr(month_in_year), $ |
---|
| 799 | flx_bb${speciesinca}:fltarr(nbpoint,month_in_year) } |
---|
| 800 | ; |
---|
| 801 | fluxstruct.vector=float(indgen(nbpoint)+1) |
---|
| 802 | ;;fluxstruct.time=float(indgen(month_in_year)+1) |
---|
| 803 | fluxstruct.time=[15, 45, 75, 105, 135, 165, 195, 225, 255, 285, 315, 345] |
---|
| 804 | fluxstruct.flx_bb${speciesinca}=flux2 |
---|
| 805 | ; |
---|
| 806 | attributes = {units:strarr(3),long_name:strarr(3)} |
---|
| 807 | attributes.units = ['vector','days since 1960-01-01','flux'] |
---|
| 808 | attributes.long_name = ['vector', 'time', 'flux'] |
---|
| 809 | ; |
---|
| 810 | dimensions = {isdim:intarr(3), links:intarr(2,3)} |
---|
| 811 | dimensions.isdim = [1,1,0] ; (1=dimension, 0=variable) |
---|
| 812 | dimensions.links = [ [-1,-1],[-1,-1],[0,1] ] |
---|
| 813 | ; |
---|
| 814 | netcdfwrite,'${filenameout3}',fluxstruct,clobber=1, attributes=attributes, dimensions=dimensions |
---|
| 815 | ; |
---|
| 816 | end |
---|
| 817 | eod |
---|
| 818 | # |
---|
| 819 | #--calling IDL |
---|
| 820 | # |
---|
| 821 | /opt/idl-6.4/idl/bin/idl << eod |
---|
| 822 | .r netcdf |
---|
| 823 | .r netcdfwrite |
---|
| 824 | .r struct_dims |
---|
| 825 | .r regrid |
---|
| 826 | regrid |
---|
| 827 | exit |
---|
| 828 | eod |
---|
| 829 | # |
---|
| 830 | |
---|
| 831 | #--end loop on species |
---|
| 832 | done |
---|
| 833 | |
---|
| 834 | #--unfortunately idl use capital letters for variable names so need to change to small letters for now |
---|
| 835 | rm -f ${dirout}flux_vector_h2s_${year}.nc ${dirout}flux_vector_so4_${year}.nc |
---|
| 836 | cdo expr,'flx_h2s=0.*FLX_SO2' ${dirout}flux_vector_so2_${year}.nc ${dirout}flux_vector_h2s_${year}.nc |
---|
| 837 | cdo expr,'flx_so4=0.*FLX_SO2' ${dirout}flux_vector_so2_${year}.nc ${dirout}flux_vector_so4_${year}.nc |
---|
| 838 | |
---|
| 839 | rm -f ${dirout}flux_vector_${year}.nc |
---|
| 840 | |
---|
| 841 | #--combining everything into a single file with some final preprocessing |
---|
| 842 | rm -f ${dirout}flux_vector_noxtot_${year}.nc ${dirout}flux_vector_so2tot_${year}.nc ${dirout}flux_vector_nh3tot_${year}.nc |
---|
| 843 | |
---|
| 844 | #--deleting output file if already there |
---|
| 845 | rm -f ${dirout}sflx_lmdz_cmip6_${year}.nc |
---|
| 846 | #--merging all files into a single one |
---|
| 847 | #--anthro NOx is NO2 so 30/46 scaling factor to change to NO |
---|
| 848 | #--openburning NOx is NO so no change in unit |
---|
| 849 | cdo merge -expr,'flx_bc=FLX_BC' ${dirout}flux_vector_bc_${year}.nc -expr,'flx_bbbc=FLX_BBBC' ${dirout}flux_vector_bcbb_${year}.nc -expr,'flx_pom=FLX_POM' ${dirout}flux_vector_pom_${year}.nc -expr,'flx_bbpom=FLX_BBPOM' ${dirout}flux_vector_pombb_${year}.nc -expr,'flx_nox=30.*FLX_NOX/46.' ${dirout}flux_vector_nox_${year}.nc -expr,'flx_bbnox=FLX_BBNOX;' ${dirout}flux_vector_noxbb_${year}.nc -expr,'flx_so2=FLX_SO2' ${dirout}flux_vector_so2_${year}.nc -expr,'flx_bbso2=FLX_BBSO2' ${dirout}flux_vector_so2bb_${year}.nc -expr,'flx_nh3=FLX_NH3' ${dirout}flux_vector_nh3_${year}.nc -expr,'flx_bbnh3=FLX_BBNH3' ${dirout}flux_vector_nh3bb_${year}.nc ${dirout}flux_vector_h2s_${year}.nc ${dirout}flux_vector_so4_${year}.nc -selname,conc_dms ${fileINCAex} ${dirout}sflx_lmdz_cmip6_${year}.nc |
---|
| 850 | |
---|
| 851 | ncrename -d VECTOR,vector -v VECTOR,vector ${dirout}sflx_lmdz_cmip6_${year}.nc |
---|
| 852 | ncrename -d TIME,time -v TIME,time ${dirout}sflx_lmdz_cmip6_${year}.nc |
---|
| 853 | |
---|
| 854 | #--cleaning up |
---|
| 855 | #rm -f ${dirout}flux*_${year}.nc |
---|
| 856 | #--to be uncommented in final version |
---|
| 857 | |
---|
| 858 | #--end loop on years |
---|
| 859 | done |
---|
| 860 | |
---|
| 861 | rm -f ${fileintanthro} ${fileintbb} |
---|
| 862 | |
---|
| 863 | #--end loop on scenarios |
---|
| 864 | done |
---|
| 865 | |
---|
| 866 | #--cleaning the mess |
---|
| 867 | rm -f ferret* |
---|
| 868 | rm -f regrid.pro |
---|
| 869 | rm -f time_interp_over_gaps.pro sumsectors.jnl select_yr.jnl rewrite.jnl |
---|