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 gridcheck |
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23 | |
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24 | !********************************************************************** |
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25 | ! * |
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26 | ! FLEXPART MODEL SUBROUTINE GRIDCHECK * |
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27 | ! * |
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28 | !********************************************************************** |
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29 | ! * |
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30 | ! AUTHOR: G. WOTAWA * |
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31 | ! DATE: 1997-08-06 * |
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32 | ! LAST UPDATE: 1997-10-10 * |
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33 | ! * |
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34 | ! Update: 1999-02-08, global fields allowed, A. Stohl* |
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35 | ! * |
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36 | !********************************************************************** |
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37 | ! * |
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38 | ! DESCRIPTION: * |
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39 | ! * |
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40 | ! THIS SUBROUTINE DETERMINES THE GRID SPECIFICATIONS (LOWER LEFT * |
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41 | ! LONGITUDE, LOWER LEFT LATITUDE, NUMBER OF GRID POINTS, GRID DIST- * |
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42 | ! ANCE AND VERTICAL DISCRETIZATION OF THE ECMWF MODEL) FROM THE * |
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43 | ! GRIB HEADER OF THE FIRST INPUT FILE. THE CONSISTANCY (NO CHANGES * |
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44 | ! WITHIN ONE FLEXPART RUN) IS CHECKED IN THE ROUTINE "READWIND" AT * |
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45 | ! ANY CALL. * |
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46 | ! * |
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47 | ! XLON0 geographical longitude of lower left gridpoint * |
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48 | ! YLAT0 geographical latitude of lower left gridpoint * |
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49 | ! NX number of grid points x-direction * |
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50 | ! NY number of grid points y-direction * |
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51 | ! DX grid distance x-direction * |
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52 | ! DY grid distance y-direction * |
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53 | ! NUVZ number of grid points for horizontal wind * |
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54 | ! components in z direction * |
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55 | ! NWZ number of grid points for vertical wind * |
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56 | ! component in z direction * |
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57 | ! sizesouth, sizenorth give the map scale (i.e. number of virtual grid* |
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58 | ! points of the polar stereographic grid): * |
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59 | ! used to check the CFL criterion * |
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60 | ! UVHEIGHT(1)- heights of gridpoints where u and v are * |
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61 | ! UVHEIGHT(NUVZ) given * |
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62 | ! WHEIGHT(1)- heights of gridpoints where w is given * |
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63 | ! WHEIGHT(NWZ) * |
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64 | ! * |
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65 | !********************************************************************** |
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66 | |
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67 | use par_mod |
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68 | use com_mod |
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69 | use conv_mod |
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70 | |
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71 | implicit none |
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72 | |
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73 | integer :: ix,jy,i,ifn,ifield,j,k,iumax,iwmax,numskip |
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74 | real :: xaux1,xaux2,yaux1,yaux2,sizesouth,sizenorth,xauxa,pint |
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75 | |
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76 | ! VARIABLES AND ARRAYS NEEDED FOR GRIB DECODING |
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77 | |
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78 | ! dimension of isec2 at least (22+n), where n is the number of parallels or |
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79 | ! meridians in a quasi-regular (reduced) Gaussian or lat/long grid |
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80 | |
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81 | ! dimension of zsec2 at least (10+nn), where nn is the number of vertical |
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82 | ! coordinate parameters |
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83 | |
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84 | integer :: isec0(2),isec1(56),isec2(22+nxmax+nymax),isec3(2) |
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85 | integer :: isec4(64),inbuff(jpack),ilen,ierr,iword,lunit |
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86 | !integer iswap |
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87 | real :: zsec2(60+2*nuvzmax),zsec3(2),zsec4(jpunp) |
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88 | character(len=1) :: opt, yoper = 'D' |
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89 | |
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90 | |
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91 | iumax=0 |
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92 | iwmax=0 |
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93 | |
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94 | if(ideltas.gt.0) then |
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95 | ifn=1 |
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96 | else |
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97 | ifn=numbwf |
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98 | endif |
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99 | ! |
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100 | ! OPENING OF DATA FILE (GRIB CODE) |
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101 | ! |
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102 | 5 call pbopen(lunit,path(3)(1:length(3))//wfname(ifn),'r',ierr) |
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103 | if(ierr.lt.0) goto 999 |
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104 | |
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105 | ifield=0 |
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106 | 10 ifield=ifield+1 |
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107 | ! |
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108 | ! GET NEXT FIELDS |
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109 | ! |
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110 | call pbgrib(lunit,inbuff,jpack,ilen,ierr) |
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111 | if(ierr.eq.-1) goto 30 ! EOF DETECTED |
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112 | if(ierr.lt.-1) goto 999 ! ERROR DETECTED |
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113 | |
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114 | ierr=1 |
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115 | |
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116 | ! Check whether we are on a little endian or on a big endian computer |
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117 | !******************************************************************** |
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118 | |
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119 | !if (inbuff(1).eq.1112101447) then ! little endian, swap bytes |
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120 | ! iswap=1+ilen/4 |
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121 | ! call swap32(inbuff,iswap) |
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122 | !else if (inbuff(1).ne.1196575042) then ! big endian |
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123 | ! stop 'subroutine gridcheck: corrupt GRIB data' |
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124 | !endif |
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125 | |
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126 | call gribex(isec0,isec1,isec2,zsec2,isec3,zsec3,isec4, & |
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127 | zsec4,jpunp,inbuff,jpack,iword,yoper,ierr) |
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128 | if (ierr.ne.0) goto 999 ! ERROR DETECTED |
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129 | |
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130 | if(ifield.eq.1) then |
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131 | nxfield=isec2(2) |
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132 | ny=isec2(3) |
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133 | xaux1=real(isec2(5))/1000. |
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134 | xaux2=real(isec2(8))/1000. |
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135 | if (xaux1.gt.180) xaux1=xaux1-360.0 |
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136 | if (xaux2.gt.180) xaux2=xaux2-360.0 |
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137 | if (xaux1.lt.-180) xaux1=xaux1+360.0 |
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138 | if (xaux2.lt.-180) xaux2=xaux2+360.0 |
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139 | if (xaux2.lt.xaux1) xaux2=xaux2+360. |
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140 | yaux1=real(isec2(7))/1000. |
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141 | yaux2=real(isec2(4))/1000. |
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142 | xlon0=xaux1 |
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143 | ylat0=yaux1 |
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144 | dx=(xaux2-xaux1)/real(nxfield-1) |
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145 | dy=(yaux2-yaux1)/real(ny-1) |
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146 | dxconst=180./(dx*r_earth*pi) |
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147 | dyconst=180./(dy*r_earth*pi) |
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148 | nlev_ec=isec2(12)/2-1 |
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149 | |
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150 | |
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151 | ! Check whether fields are global |
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152 | ! If they contain the poles, specify polar stereographic map |
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153 | ! projections using the stlmbr- and stcm2p-calls |
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154 | !*********************************************************** |
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155 | |
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156 | xauxa=abs(xaux2+dx-360.-xaux1) |
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157 | if (xauxa.lt.0.001) then |
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158 | nx=nxfield+1 ! field is cyclic |
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159 | xglobal=.true. |
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160 | if (abs(nxshift).ge.nx) & |
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161 | stop 'nxshift in file par_mod is too large' |
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162 | xlon0=xlon0+real(nxshift)*dx |
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163 | else |
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164 | nx=nxfield |
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165 | xglobal=.false. |
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166 | if (nxshift.ne.0) & |
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167 | stop 'nxshift (par_mod) must be zero for non-global domain' |
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168 | endif |
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169 | nxmin1=nx-1 |
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170 | nymin1=ny-1 |
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171 | if (xlon0.gt.180.) xlon0=xlon0-360. |
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172 | xauxa=abs(yaux1+90.) |
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173 | if (xglobal.and.xauxa.lt.0.001) then |
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174 | sglobal=.true. ! field contains south pole |
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175 | ! Enhance the map scale by factor 3 (*2=6) compared to north-south |
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176 | ! map scale |
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177 | sizesouth=6.*(switchsouth+90.)/dy |
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178 | call stlmbr(southpolemap,-90.,0.) |
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179 | call stcm2p(southpolemap,0.,0.,switchsouth,0.,sizesouth, & |
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180 | sizesouth,switchsouth,180.) |
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181 | switchsouthg=(switchsouth-ylat0)/dy |
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182 | else |
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183 | sglobal=.false. |
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184 | switchsouthg=999999. |
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185 | endif |
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186 | xauxa=abs(yaux2-90.) |
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187 | if (xglobal.and.xauxa.lt.0.001) then |
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188 | nglobal=.true. ! field contains north pole |
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189 | ! Enhance the map scale by factor 3 (*2=6) compared to north-south |
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190 | ! map scale |
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191 | sizenorth=6.*(90.-switchnorth)/dy |
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192 | call stlmbr(northpolemap,90.,0.) |
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193 | call stcm2p(northpolemap,0.,0.,switchnorth,0.,sizenorth, & |
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194 | sizenorth,switchnorth,180.) |
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195 | switchnorthg=(switchnorth-ylat0)/dy |
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196 | else |
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197 | nglobal=.false. |
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198 | switchnorthg=999999. |
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199 | endif |
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200 | endif |
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201 | |
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202 | if (nxshift.lt.0) stop 'nxshift (par_mod) must not be negative' |
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203 | if (nxshift.ge.nxfield) stop 'nxshift (par_mod) too large' |
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204 | |
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205 | k=isec1(8) |
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206 | if(isec1(6).eq.131) iumax=max(iumax,nlev_ec-k+1) |
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207 | if(isec1(6).eq.135) iwmax=max(iwmax,nlev_ec-k+1) |
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208 | |
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209 | if(isec1(6).eq.129) then |
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210 | do jy=0,ny-1 |
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211 | do ix=0,nxfield-1 |
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212 | ! write (*,*) 'ich stop!',nxfield,ny,jy,ix,ga |
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213 | ! stop |
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214 | oro(ix,jy)=zsec4(nxfield*(ny-jy-1)+ix+1)/ga |
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215 | end do |
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216 | end do |
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217 | endif |
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218 | if(isec1(6).eq.172) then |
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219 | do jy=0,ny-1 |
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220 | do ix=0,nxfield-1 |
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221 | lsm(ix,jy)=zsec4(nxfield*(ny-jy-1)+ix+1) |
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222 | end do |
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223 | end do |
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224 | endif |
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225 | if(isec1(6).eq.160) then |
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226 | do jy=0,ny-1 |
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227 | do ix=0,nxfield-1 |
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228 | excessoro(ix,jy)=zsec4(nxfield*(ny-jy-1)+ix+1) |
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229 | end do |
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230 | end do |
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231 | endif |
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232 | |
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233 | goto 10 !! READ NEXT LEVEL OR PARAMETER |
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234 | ! |
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235 | ! CLOSING OF INPUT DATA FILE |
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236 | ! |
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237 | 30 call pbclose(lunit,ierr) !! FINISHED READING / CLOSING GRIB FILE |
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238 | |
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239 | nuvz=iumax |
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240 | nwz =iwmax |
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241 | if(nuvz.eq.nlev_ec) nwz=nlev_ec+1 |
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242 | |
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243 | if (nx.gt.nxmax) then |
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244 | write(*,*) 'FLEXPART error: Too many grid points in x direction.' |
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245 | write(*,*) 'Reduce resolution of wind fields.' |
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246 | write(*,*) 'Or change parameter settings in file par_mod.' |
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247 | write(*,*) nx,nxmax |
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248 | stop |
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249 | endif |
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250 | |
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251 | if (ny.gt.nymax) then |
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252 | write(*,*) 'FLEXPART error: Too many grid points in y direction.' |
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253 | write(*,*) 'Reduce resolution of wind fields.' |
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254 | write(*,*) 'Or change parameter settings in file par_mod.' |
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255 | write(*,*) ny,nymax |
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256 | stop |
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257 | endif |
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258 | |
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259 | if (nuvz+1.gt.nuvzmax) then |
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260 | write(*,*) 'FLEXPART error: Too many u,v grid points in z '// & |
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261 | 'direction.' |
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262 | write(*,*) 'Reduce resolution of wind fields.' |
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263 | write(*,*) 'Or change parameter settings in file par_mod.' |
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264 | write(*,*) nuvz+1,nuvzmax |
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265 | stop |
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266 | endif |
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267 | |
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268 | if (nwz.gt.nwzmax) then |
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269 | write(*,*) 'FLEXPART error: Too many w grid points in z '// & |
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270 | 'direction.' |
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271 | write(*,*) 'Reduce resolution of wind fields.' |
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272 | write(*,*) 'Or change parameter settings in file par_mod.' |
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273 | write(*,*) nwz,nwzmax |
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274 | stop |
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275 | endif |
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276 | |
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277 | ! If desired, shift all grids by nxshift grid cells |
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278 | !************************************************** |
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279 | |
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280 | if (xglobal) then |
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281 | call shift_field_0(oro,nxfield,ny) |
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282 | call shift_field_0(lsm,nxfield,ny) |
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283 | call shift_field_0(excessoro,nxfield,ny) |
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284 | endif |
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285 | |
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286 | ! Output of grid info |
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287 | !******************** |
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288 | |
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289 | write(*,*) |
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290 | write(*,*) |
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291 | write(*,'(a,2i7)') '# of vertical levels in ECMWF data: ', & |
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292 | nuvz+1,nwz |
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293 | write(*,*) |
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294 | write(*,'(a)') 'Mother domain:' |
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295 | write(*,'(a,f10.2,a1,f10.2,a,f10.2)') ' Longitude range: ', & |
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296 | xlon0,' to ',xlon0+(nx-1)*dx,' Grid distance: ',dx |
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297 | write(*,'(a,f10.2,a1,f10.2,a,f10.2)') ' Latitude range: ', & |
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298 | ylat0,' to ',ylat0+(ny-1)*dy,' Grid distance: ',dy |
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299 | write(*,*) |
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300 | |
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301 | |
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302 | ! CALCULATE VERTICAL DISCRETIZATION OF ECMWF MODEL |
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303 | ! PARAMETER akm,bkm DESCRIBE THE HYBRID "ETA" COORDINATE SYSTEM |
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304 | |
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305 | numskip=nlev_ec-nuvz ! number of ecmwf model layers not used |
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306 | ! by trajectory model |
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307 | do i=1,nwz |
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308 | j=numskip+i |
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309 | k=nlev_ec+1+numskip+i |
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310 | akm(nwz-i+1)=zsec2(10+j) |
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311 | bkm(nwz-i+1)=zsec2(10+k) |
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312 | end do |
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313 | |
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314 | ! |
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315 | ! CALCULATION OF AKZ, BKZ |
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316 | ! AKZ,BKZ: model discretization parameters at the center of each model |
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317 | ! layer |
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318 | ! |
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319 | ! Assign the 10 m winds to an artificial model level with akz=0 and bkz=1.0, |
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320 | ! i.e. ground level |
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321 | !***************************************************************************** |
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322 | |
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323 | akz(1)=0. |
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324 | bkz(1)=1.0 |
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325 | do i=1,nuvz |
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326 | akz(i+1)=0.5*(akm(i+1)+akm(i)) |
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327 | bkz(i+1)=0.5*(bkm(i+1)+bkm(i)) |
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328 | end do |
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329 | nuvz=nuvz+1 |
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330 | |
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331 | ! NOTE: In FLEXPART versions up to 4.0, the number of model levels was doubled |
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332 | ! upon the transformation to z levels. In order to save computer memory, this is |
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333 | ! not done anymore in the standard version. However, this option can still be |
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334 | ! switched on by replacing the following lines with those below, that are |
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335 | ! currently commented out. For this, similar changes are necessary in |
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336 | ! verttransform.f and verttranform_nests.f |
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337 | !***************************************************************************** |
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338 | |
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339 | nz=nuvz |
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340 | if (nz.gt.nzmax) stop 'nzmax too small' |
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341 | do i=1,nuvz |
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342 | aknew(i)=akz(i) |
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343 | bknew(i)=bkz(i) |
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344 | end do |
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345 | |
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346 | ! Switch on following lines to use doubled vertical resolution |
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347 | !************************************************************* |
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348 | !nz=nuvz+nwz-1 |
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349 | !if (nz.gt.nzmax) stop 'nzmax too small' |
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350 | !do 100 i=1,nwz |
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351 | ! aknew(2*(i-1)+1)=akm(i) |
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352 | !00 bknew(2*(i-1)+1)=bkm(i) |
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353 | !do 110 i=2,nuvz |
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354 | ! aknew(2*(i-1))=akz(i) |
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355 | !10 bknew(2*(i-1))=bkz(i) |
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356 | ! End doubled vertical resolution |
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357 | |
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358 | |
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359 | ! Determine the uppermost level for which the convection scheme shall be applied |
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360 | ! by assuming that there is no convection above 50 hPa (for standard SLP) |
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361 | !***************************************************************************** |
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362 | |
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363 | do i=1,nuvz-2 |
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364 | pint=akz(i)+bkz(i)*101325. |
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365 | if (pint.lt.5000.) goto 96 |
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366 | end do |
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367 | 96 nconvlev=i |
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368 | if (nconvlev.gt.nconvlevmax-1) then |
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369 | nconvlev=nconvlevmax-1 |
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370 | write(*,*) 'Attention, convection only calculated up to ', & |
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371 | akz(nconvlev)+bkz(nconvlev)*1013.25,' hPa' |
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372 | endif |
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373 | |
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374 | return |
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375 | |
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376 | 999 write(*,*) |
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377 | write(*,*) ' ###########################################'// & |
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378 | '###### ' |
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379 | write(*,*) ' TRAJECTORY MODEL SUBROUTINE GRIDCHECK:' |
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380 | write(*,*) ' CAN NOT OPEN INPUT DATA FILE '//wfname(ifn) |
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381 | write(*,*) ' ###########################################'// & |
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382 | '###### ' |
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383 | write(*,*) |
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384 | write(*,'(a)') '!!! PLEASE INSERT A NEW CD-ROM AND !!!' |
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385 | write(*,'(a)') '!!! PRESS ANY KEY TO CONTINUE... !!!' |
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386 | write(*,'(a)') '!!! ...OR TERMINATE FLEXPART PRESSING!!!' |
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387 | write(*,'(a)') '!!! THE "X" KEY... !!!' |
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388 | write(*,*) |
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389 | read(*,'(a)') opt |
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390 | if(opt.eq.'X') then |
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391 | stop |
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392 | else |
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393 | goto 5 |
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394 | endif |
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395 | |
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396 | end subroutine gridcheck |
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