1 | SUBROUTINE cv3_enthalpmix(len, nd, iflag, plim1, plim2, p, ph, & |
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2 | t, q, u, v, w, & |
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3 | wi, nk, tmix, thmix, qmix, qsmix, umix, vmix, plcl & |
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4 | #ifdef ISO |
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5 | ,xt,xtmix & |
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6 | #endif |
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7 | ) |
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8 | #ifdef ISO |
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9 | USE infotrac_phy, ONLY: ntiso |
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10 | #endif |
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11 | ! ************************************************************** |
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12 | ! * |
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13 | ! CV3_ENTHALPMIX Brassage adiabatique d'une couche d'epaisseur * |
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14 | ! arbitraire. * |
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15 | ! * |
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16 | ! written by : Grandpeix Jean-Yves, 28/12/2001, 13.14.24 * |
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17 | ! modified by : Filiberti M-A 06/2005 vectorisation * |
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18 | ! ************************************************************** |
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19 | |
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20 | IMPLICIT NONE |
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21 | ! ============================================================== |
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22 | |
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23 | ! vertmix : determines theta, t, q, qs, u and v of the mixture generated by |
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24 | ! adiabatic mixing of air between plim1 and plim2 with weighting w. |
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25 | ! If plim1 and plim2 fall within the same model layer, then theta, ... v |
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26 | ! are those of that layer. |
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27 | ! A minimum value (dpmin) is imposed upon plim1-plim2 |
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28 | |
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29 | ! =============================================================== |
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30 | |
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31 | include "cvthermo.h" |
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32 | include "YOETHF.h" |
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33 | include "YOMCST.h" |
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34 | include "FCTTRE.h" |
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35 | !inputs: |
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36 | INTEGER, INTENT (IN) :: nd, len |
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37 | INTEGER, DIMENSION (len), INTENT (IN) :: nk |
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38 | REAL, DIMENSION (len), INTENT (IN) :: plim1, plim2 |
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39 | REAL, DIMENSION (len,nd), INTENT (IN) :: t, q |
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40 | REAL, DIMENSION (len,nd), INTENT (IN) :: u, v |
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41 | REAL, DIMENSION (nd), INTENT (IN) :: w |
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42 | REAL, DIMENSION (len,nd), INTENT (IN) :: p |
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43 | REAL, DIMENSION (len,nd+1), INTENT (IN) :: ph |
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44 | #ifdef ISO |
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45 | REAL, DIMENSION (ntiso,len,nd), INTENT (IN) :: xt |
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46 | #endif |
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47 | !input/output: |
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48 | INTEGER, DIMENSION (len), INTENT (INOUT) :: iflag |
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49 | !outputs: |
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50 | REAL, DIMENSION (len), INTENT (OUT) :: tmix, thmix, qmix |
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51 | REAL, DIMENSION (len), INTENT (OUT) :: umix, vmix |
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52 | REAL, DIMENSION (len), INTENT (OUT) :: qsmix |
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53 | REAL, DIMENSION (len), INTENT (OUT) :: plcl |
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54 | REAL, DIMENSION (len,nd), INTENT (OUT) :: wi |
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55 | #ifdef ISO |
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56 | REAL, DIMENSION (ntiso,len), INTENT (OUT) :: xtmix |
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57 | #endif |
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58 | !internal variables : |
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59 | INTEGER i, j |
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60 | INTEGER niflag7 |
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61 | INTEGER, DIMENSION(len) :: j1, j2 |
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62 | REAL :: a, b |
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63 | REAL :: cpn |
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64 | REAL :: x, y, p0, p0m1, zdelta, zcor |
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65 | REAL, SAVE :: dpmin=1. |
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66 | !$OMP THREADPRIVATE(dpmin) |
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67 | REAL, DIMENSION(len) :: plim2p ! = min(plim2(:),plim1(:)-dpmin) |
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68 | REAL, DIMENSION(len) :: akm ! mixture enthalpy |
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69 | REAL, DIMENSION(len) :: dpw, coef |
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70 | REAL, DIMENSION(len) :: rdcp, a2, b2, pnk |
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71 | REAL, DIMENSION(len) :: rh, chi |
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72 | REAL, DIMENSION(len) :: eqwght |
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73 | REAL, DIMENSION(len,nd) :: p1, p2 |
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74 | #ifdef ISO |
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75 | INTEGER ixt |
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76 | #endif |
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77 | |
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78 | |
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79 | !! print *,' ->cv3_vertmix, plim1,plim2 ', plim1,plim2 !jyg |
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80 | plim2p(:) = min(plim2(:),plim1(:)-dpmin) |
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81 | j1(:)=nd |
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82 | j2(:) = 0 |
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83 | DO j = 1, nd |
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84 | DO i = 1, len |
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85 | IF (plim1(i)<=ph(i,j)) j1(i) = j |
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86 | !!! IF (plim2p(i)>=ph(i,j+1) .AND. plim2p(i)<ph(i,j)) j2(i) = j |
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87 | IF (plim2p(i)< ph(i,j)) j2(i) = j |
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88 | END DO |
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89 | END DO |
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90 | |
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91 | DO j = 1, nd |
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92 | DO i = 1, len |
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93 | wi(i, j) = 0. |
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94 | END DO |
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95 | END DO |
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96 | DO i = 1, len |
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97 | akm(i) = 0. |
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98 | qmix(i) = 0. |
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99 | umix(i) = 0. |
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100 | vmix(i) = 0. |
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101 | dpw(i) = 0. |
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102 | a2(i) = 0.0 |
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103 | b2(i) = 0. |
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104 | pnk(i) = p(i, nk(i)) |
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105 | #ifdef ISO |
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106 | xtmix(:,i) = 0. |
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107 | #endif |
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108 | END DO |
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109 | eqwght(:) = 0. |
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110 | |
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111 | p0 = 1000. |
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112 | p0m1 = 1./p0 |
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113 | |
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114 | DO i = 1, len |
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115 | IF (j2(i) < j1(i)) THEN |
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116 | coef(i) = 1. |
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117 | eqwght(i) = 1. |
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118 | ELSE |
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119 | coef(i) = 1./(plim1(i)-plim2p(i)) |
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120 | ENDIF |
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121 | END DO |
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122 | |
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123 | !! print *,'cv3_vertmix, j1,j2,coef ', j1,j2,coef !jyg |
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124 | |
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125 | DO j = 1, nd |
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126 | DO i = 1, len |
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127 | IF (j>=j1(i) .AND. j<=j2(i)) THEN |
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128 | p1(i, j) = min(ph(i,j), plim1(i)) |
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129 | p2(i, j) = max(ph(i,j+1), plim2p(i)) |
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130 | ! CRtest:couplage thermiques: deja normalise |
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131 | ! wi(i,j) = w(j) |
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132 | ! PRINT*,'wi',wi(i,j) |
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133 | wi(i, j) = w(j)*(p1(i,j)-p2(i,j))*coef(i)+eqwght(i) |
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134 | dpw(i) = dpw(i) + wi(i, j) |
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135 | |
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136 | !! print *,'cv3_vertmix, j, wi(1,j),dpw ', j, wi(1,j),dpw !jyg |
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137 | |
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138 | END IF |
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139 | END DO |
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140 | END DO |
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141 | |
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142 | ! CR:print |
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143 | ! do i=1,len |
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144 | ! PRINT*,'plim',plim1(i),plim2p(i) |
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145 | ! enddo |
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146 | DO j = 1, nd |
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147 | DO i = 1, len |
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148 | IF (j>=j1(i) .AND. j<=j2(i)) THEN |
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149 | wi(i, j) = wi(i, j)/dpw(i) |
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150 | akm(i) = akm(i) + (cpd*(1.-q(i,j))+q(i,j)*cpv)*t(i, j)*wi(i, j) |
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151 | qmix(i) = qmix(i) + q(i, j)*wi(i, j) |
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152 | umix(i) = umix(i) + u(i, j)*wi(i, j) |
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153 | vmix(i) = vmix(i) + v(i, j)*wi(i, j) |
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154 | #ifdef ISO |
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155 | do ixt=1,ntiso |
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156 | xtmix(ixt,i) = xtmix(ixt,i) + xt(ixt,i, j)*wi(i, j) |
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157 | enddo |
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158 | #endif |
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159 | END IF |
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160 | END DO |
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161 | END DO |
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162 | |
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163 | DO i = 1, len |
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164 | rdcp(i) = (rrd*(1.-qmix(i))+qmix(i)*rrv)/(cpd*(1.-qmix(i))+qmix(i)*cpv) |
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165 | END DO |
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166 | |
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167 | |
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168 | !! print *,'cv3_vertmix, rdcp ', rdcp !jyg |
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169 | |
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170 | |
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171 | |
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172 | DO j = 1, nd |
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173 | DO i = 1, len |
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174 | IF (j>=j1(i) .AND. j<=j2(i)) THEN |
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175 | ! c x=(.5*(p1(i,j)+p2(i,j))*p0m1)**rdcp(i) |
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176 | y = (.5*(p1(i,j)+p2(i,j))/pnk(i))**rdcp(i) |
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177 | ! c a2(i)=a2(i)+(cpd*(1.-qmix(i))+qmix(i)*cpv)*x*wi(i,j) |
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178 | b2(i) = b2(i) + (cpd*(1.-qmix(i))+qmix(i)*cpv)*y*wi(i, j) |
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179 | END IF |
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180 | END DO |
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181 | END DO |
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182 | |
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183 | DO i = 1, len |
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184 | tmix(i) = akm(i)/b2(i) |
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185 | thmix(i) = tmix(i)*(p0/pnk(i))**rdcp(i) |
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186 | ! PRINT*,'thmix akm',akm(i),b2(i) |
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187 | ! PRINT*,'thmix t',tmix(i),p0 |
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188 | ! PRINT*,'thmix p',pnk(i),rdcp(i) |
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189 | ! PRINT*,'thmix',thmix(i) |
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190 | ! c thmix(i) = akm(i)/a2(i) |
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191 | ! c tmix(i)= thmix(i)*(pnk(i)*p0m1)**rdcp(i) |
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192 | zdelta = max(0., sign(1.,rtt-tmix(i))) |
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193 | qsmix(i) = r2es*foeew(tmix(i), zdelta)/(pnk(i)*100.) |
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194 | qsmix(i) = min(0.5, qsmix(i)) |
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195 | zcor = 1./(1.-retv*qsmix(i)) |
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196 | qsmix(i) = qsmix(i)*zcor |
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197 | END DO |
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198 | |
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199 | ! ------------------------------------------------------------------- |
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200 | ! --- Calculate lifted condensation level of air at parcel origin level |
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201 | ! --- (Within 0.2% of formula of Bolton, MON. WEA. REV.,1980) |
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202 | ! ------------------------------------------------------------------- |
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203 | |
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204 | a = 1669.0 ! convect3 |
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205 | b = 122.0 ! convect3 |
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206 | |
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207 | |
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208 | niflag7 = 0 |
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209 | DO i = 1, len |
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210 | |
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211 | IF (iflag(i)/=7) THEN ! modif sb Jun7th 2002 |
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212 | |
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213 | rh(i) = qmix(i)/qsmix(i) |
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214 | chi(i) = tmix(i)/(a-b*rh(i)-tmix(i)) ! convect3 |
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215 | ! ATTENTION, la LIGNE DESSOUS A ETE RAJOUTEE ARBITRAIREMENT ET |
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216 | ! MASQUE UN PB POTENTIEL |
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217 | chi(i) = max(chi(i), 0.) |
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218 | rh(i) = max(rh(i), 0.) |
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219 | plcl(i) = pnk(i)*(rh(i)**chi(i)) |
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220 | IF (((plcl(i)<200.0) .OR. (plcl(i)>=2000.0)) .AND. (iflag(i)==0)) & |
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221 | iflag(i) = 8 |
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222 | |
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223 | ELSE |
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224 | |
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225 | niflag7 = niflag7 + 1 |
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226 | plcl(i) = plim2p(i) |
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227 | |
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228 | END IF ! iflag=7 |
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229 | |
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230 | ! PRINT*,'NIFLAG7 =',niflag7 |
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231 | |
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232 | END DO |
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233 | |
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234 | !! print *,' cv3_vertmix->' !jyg |
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235 | |
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236 | |
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237 | |
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238 | END SUBROUTINE cv3_enthalpmix |
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239 | |
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