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 | |
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23 | subroutine partpos_average(itime,j) |
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24 | |
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25 | |
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26 | !********************************************************************** |
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27 | ! This subroutine averages particle quantities, to be used for particle |
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28 | ! dump (in partoutput.f90). Averaging is done over output interval. |
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29 | !********************************************************************** |
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30 | |
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31 | use par_mod |
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32 | use com_mod |
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33 | |
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34 | implicit none |
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35 | |
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36 | integer :: itime,j,ix,jy,ixp,jyp,indexh,m,il,ind,indz,indzp |
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37 | real :: xlon,ylat,x,y,z |
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38 | real :: dt1,dt2,dtt,ddx,ddy,rddx,rddy,p1,p2,p3,p4,dz1,dz2,dz |
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39 | real :: topo,hm(2),hmixi,pv1(2),pvprof(2),pvi,qv1(2),qvprof(2),qvi |
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40 | real :: tt1(2),ttprof(2),tti,rho1(2),rhoprof(2),rhoi |
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41 | real :: uu1(2),uuprof(2),uui,vv1(2),vvprof(2),vvi |
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42 | real :: tr(2),tri,energy |
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43 | |
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44 | |
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45 | |
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46 | ! Some variables needed for temporal interpolation |
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47 | !************************************************* |
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48 | |
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49 | dt1=real(itime-memtime(1)) |
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50 | dt2=real(memtime(2)-itime) |
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51 | dtt=1./(dt1+dt2) |
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52 | |
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53 | xlon=xlon0+xtra1(j)*dx |
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54 | ylat=ylat0+ytra1(j)*dy |
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55 | |
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56 | !***************************************************************************** |
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57 | ! Interpolate several variables (PV, specific humidity, etc.) to particle position |
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58 | !***************************************************************************** |
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59 | |
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60 | ix=xtra1(j) |
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61 | jy=ytra1(j) |
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62 | ixp=ix+1 |
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63 | jyp=jy+1 |
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64 | ddx=xtra1(j)-real(ix) |
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65 | ddy=ytra1(j)-real(jy) |
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66 | rddx=1.-ddx |
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67 | rddy=1.-ddy |
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68 | p1=rddx*rddy |
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69 | p2=ddx*rddy |
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70 | p3=rddx*ddy |
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71 | p4=ddx*ddy |
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72 | |
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73 | ! eso: Temporary fix for particle exactly at north pole |
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74 | if (jyp >= nymax) then |
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75 | ! write(*,*) 'WARNING: conccalc.f90 jyp >= nymax' |
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76 | jyp=jyp-1 |
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77 | end if |
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78 | |
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79 | ! Topography |
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80 | !*********** |
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81 | |
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82 | topo=p1*oro(ix,jy)+p2*oro(ixp,jy)+p3*oro(ix,jyp)+p4*oro(ixp,jyp) |
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83 | |
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84 | ! Potential vorticity, specific humidity, temperature, and density |
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85 | !***************************************************************** |
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86 | |
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87 | do il=2,nz |
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88 | if (height(il).gt.ztra1(j)) then |
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89 | indz=il-1 |
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90 | indzp=il |
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91 | goto 6 |
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92 | endif |
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93 | end do |
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94 | 6 continue |
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95 | |
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96 | dz1=ztra1(j)-height(indz) |
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97 | dz2=height(indzp)-ztra1(j) |
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98 | dz=1./(dz1+dz2) |
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99 | |
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100 | |
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101 | do ind=indz,indzp |
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102 | do m=1,2 |
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103 | indexh=memind(m) |
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104 | |
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105 | ! Potential vorticity |
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106 | pv1(m)=p1*pv(ix ,jy ,ind,indexh) & |
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107 | +p2*pv(ixp,jy ,ind,indexh) & |
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108 | +p3*pv(ix ,jyp,ind,indexh) & |
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109 | +p4*pv(ixp,jyp,ind,indexh) |
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110 | ! Specific humidity |
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111 | qv1(m)=p1*qv(ix ,jy ,ind,indexh) & |
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112 | +p2*qv(ixp,jy ,ind,indexh) & |
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113 | +p3*qv(ix ,jyp,ind,indexh) & |
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114 | +p4*qv(ixp,jyp,ind,indexh) |
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115 | ! Temperature |
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116 | tt1(m)=p1*tt(ix ,jy ,ind,indexh) & |
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117 | +p2*tt(ixp,jy ,ind,indexh) & |
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118 | +p3*tt(ix ,jyp,ind,indexh) & |
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119 | +p4*tt(ixp,jyp,ind,indexh) |
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120 | ! U wind |
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121 | uu1(m)=p1*uu(ix ,jy ,ind,indexh) & |
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122 | +p2*uu(ixp,jy ,ind,indexh) & |
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123 | +p3*uu(ix ,jyp,ind,indexh) & |
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124 | +p4*uu(ixp,jyp,ind,indexh) |
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125 | ! V wind |
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126 | vv1(m)=p1*vv(ix ,jy ,ind,indexh) & |
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127 | +p2*vv(ixp,jy ,ind,indexh) & |
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128 | +p3*vv(ix ,jyp,ind,indexh) & |
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129 | +p4*vv(ixp,jyp,ind,indexh) |
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130 | ! Density |
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131 | rho1(m)=p1*rho(ix ,jy ,ind,indexh) & |
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132 | +p2*rho(ixp,jy ,ind,indexh) & |
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133 | +p3*rho(ix ,jyp,ind,indexh) & |
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134 | +p4*rho(ixp,jyp,ind,indexh) |
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135 | end do |
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136 | pvprof(ind-indz+1)=(pv1(1)*dt2+pv1(2)*dt1)*dtt |
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137 | qvprof(ind-indz+1)=(qv1(1)*dt2+qv1(2)*dt1)*dtt |
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138 | ttprof(ind-indz+1)=(tt1(1)*dt2+tt1(2)*dt1)*dtt |
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139 | uuprof(ind-indz+1)=(uu1(1)*dt2+uu1(2)*dt1)*dtt |
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140 | vvprof(ind-indz+1)=(vv1(1)*dt2+vv1(2)*dt1)*dtt |
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141 | rhoprof(ind-indz+1)=(rho1(1)*dt2+rho1(2)*dt1)*dtt |
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142 | end do |
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143 | pvi=(dz1*pvprof(2)+dz2*pvprof(1))*dz |
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144 | qvi=(dz1*qvprof(2)+dz2*qvprof(1))*dz |
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145 | tti=(dz1*ttprof(2)+dz2*ttprof(1))*dz |
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146 | uui=(dz1*uuprof(2)+dz2*uuprof(1))*dz |
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147 | vvi=(dz1*vvprof(2)+dz2*vvprof(1))*dz |
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148 | rhoi=(dz1*rhoprof(2)+dz2*rhoprof(1))*dz |
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149 | |
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150 | ! Tropopause and PBL height |
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151 | !************************** |
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152 | |
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153 | do m=1,2 |
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154 | indexh=memind(m) |
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155 | |
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156 | ! Tropopause |
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157 | tr(m)=p1*tropopause(ix ,jy ,1,indexh) & |
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158 | + p2*tropopause(ixp,jy ,1,indexh) & |
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159 | + p3*tropopause(ix ,jyp,1,indexh) & |
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160 | + p4*tropopause(ixp,jyp,1,indexh) |
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161 | |
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162 | ! PBL height |
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163 | hm(m)=p1*hmix(ix ,jy ,1,indexh) & |
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164 | + p2*hmix(ixp,jy ,1,indexh) & |
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165 | + p3*hmix(ix ,jyp,1,indexh) & |
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166 | + p4*hmix(ixp,jyp,1,indexh) |
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167 | end do |
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168 | |
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169 | hmixi=(hm(1)*dt2+hm(2)*dt1)*dtt |
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170 | tri=(tr(1)*dt2+tr(2)*dt1)*dtt |
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171 | |
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172 | |
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173 | energy=tti*cpa+(ztra1(j)+topo)*9.81+qvi*2501000.+(uui**2+vvi**2)/2. |
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174 | |
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175 | ! Add new values to sum and increase counter by one |
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176 | !************************************************** |
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177 | |
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178 | npart_av(j)=npart_av(j)+1 |
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179 | |
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180 | ! Calculate Cartesian 3D coordinates suitable for averaging |
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181 | !********************************************************** |
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182 | |
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183 | xlon=xlon*pi180 |
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184 | ylat=ylat*pi180 |
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185 | x = cos(ylat)*sin(xlon) |
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186 | y = -1.*cos(ylat)*cos(xlon) |
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187 | z = sin(ylat) |
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188 | |
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189 | part_av_cartx(j)=part_av_cartx(j)+x |
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190 | part_av_carty(j)=part_av_carty(j)+y |
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191 | part_av_cartz(j)=part_av_cartz(j)+z |
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192 | part_av_z(j)=part_av_z(j)+ztra1(j) |
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193 | part_av_topo(j)=part_av_topo(j)+topo |
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194 | part_av_pv(j)=part_av_pv(j)+pvi |
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195 | part_av_qv(j)=part_av_qv(j)+qvi |
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196 | part_av_tt(j)=part_av_tt(j)+tti |
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197 | part_av_uu(j)=part_av_uu(j)+uui |
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198 | part_av_vv(j)=part_av_vv(j)+vvi |
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199 | part_av_rho(j)=part_av_rho(j)+rhoi |
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200 | part_av_tro(j)=part_av_tro(j)+tri |
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201 | part_av_hmix(j)=part_av_hmix(j)+hmixi |
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202 | part_av_energy(j)=part_av_energy(j)+energy |
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203 | |
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204 | |
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205 | return |
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206 | end subroutine partpos_average |
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