1 | SUBROUTINE CV3_BUOY (nloc,ncum,nd,icb,inb |
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2 | : ,pbase,plcl,p,ph,Ale,Cin |
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3 | : ,tv,tvp |
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4 | : ,buoy ) |
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5 | *************************************************************** |
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6 | * * |
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7 | * CV3_BUOY * |
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8 | * Buoyancy corrections to account for ALE * |
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9 | * * |
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10 | * written by : MOREAU Cecile, 07/08/2003, 15.55.48 * |
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11 | * modified by : * |
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12 | *************************************************************** |
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13 | * |
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14 | implicit none |
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15 | |
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16 | include "cvthermo.h" |
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17 | include "cv3param.h" |
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18 | |
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19 | c input: |
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20 | integer ncum, nd, nloc |
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21 | integer icb(nloc), inb(nloc) |
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22 | real pbase(nloc),plcl(nloc) |
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23 | real p(nloc,nd), ph(nloc,nd+1) |
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24 | real Ale(nloc), Cin(nloc) |
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25 | real tv(nloc,nd), tvp(nloc,nd) |
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26 | |
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27 | c output: |
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28 | real buoy(nloc,nd) |
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29 | |
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30 | c local variables: |
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31 | integer il, k |
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32 | integer kmx(nloc) |
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33 | real bll(nloc), bmx(nloc) |
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34 | real gamma(nloc) |
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35 | logical ok(nloc) |
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36 | |
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37 | real dgamma |
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38 | real buoymin |
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39 | parameter (dgamma = 2.e-03) !dgamma gamma |
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40 | parameter (buoymin = 2.) |
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41 | |
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42 | logical fixed_bll |
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43 | SAVE fixed_bll |
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44 | data fixed_bll /.TRUE./ |
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45 | c$OMP THREADPRIVATE(fixed_bll) |
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46 | |
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47 | |
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48 | c print *,' Ale+cin ',ale(1)+cin(1) |
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49 | c-------------------------------------------------------------- |
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50 | c Recompute buoyancies |
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51 | c-------------------------------------------------------------- |
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52 | DO k = 1,nl |
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53 | DO il = 1,ncum |
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54 | buoy(il,k) = tvp(il,k) - tv(il,k) |
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55 | ENDDO |
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56 | ENDDO |
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57 | |
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58 | c ------------------------------------------------------------- |
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59 | c -- Compute low level buoyancy ( function of Ale+Cin ) |
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60 | c ------------------------------------------------------------- |
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61 | IF (fixed_bll) THEN |
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62 | c |
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63 | do il = 1,ncum |
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64 | bll(il) = 0.5 |
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65 | end DO |
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66 | else |
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67 | |
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68 | do il = 1,ncum |
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69 | IF (Ale(il)+Cin(il) .GT. 0.) THEN |
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70 | gamma(il) = 4.*buoy(il,icb(il))**2 |
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71 | : + 8.*dgamma*(Ale(il)+Cin(il))*tv(il,icb(il))/grav |
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72 | gamma(il) = max(gamma(il),1.e-10) |
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73 | ENDIF |
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74 | end do |
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75 | |
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76 | do il = 1,ncum |
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77 | IF (Ale(il)+Cin(il) .GT. 0.) THEN |
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78 | bll(il) = 4.*dgamma*(Ale(il)+Cin(il))*tv(il,icb(il)) |
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79 | : /(grav*(abs(buoy(il,icb(il))+0.5*sqrt(gamma(il))))) |
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80 | ENDIF |
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81 | end do |
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82 | |
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83 | do il = 1,ncum |
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84 | IF (Ale(il)+Cin(il) .GT. 0.) THEN |
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85 | bll(il) = min(bll(il),buoymin) |
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86 | ENDIF |
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87 | end DO |
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88 | c |
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89 | ENDIF !(fixed_bll) |
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90 | |
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91 | |
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92 | c ------------------------------------------------------------- |
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93 | c --Get highest buoyancy among levels below LCL-200hPa |
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94 | c ------------------------------------------------------------- |
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95 | |
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96 | do il = 1,ncum |
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97 | bmx(il) =-1000. |
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98 | kmx(il) = icb(il) |
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99 | ok(il) = .true. |
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100 | end do |
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101 | |
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102 | do k = 1,nl |
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103 | do il = 1,ncum |
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104 | IF (Ale(il)+Cin(il) .GT. 0. .AND. ok(il)) THEN |
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105 | IF (k .GT. icb(il) .AND. k .LE. inb(il)) THEN |
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106 | cc print *,'k,p(il,k),plcl(il)-200. ', k,p(il,k),plcl(il)-200. |
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107 | IF (P(il,k) .GT. plcl(il)-200.) THEN |
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108 | IF (buoy(il,k) .GT. bmx(il)) THEN |
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109 | bmx(il) = buoy(il,k) |
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110 | kmx(il) = k |
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111 | IF (bmx(il) .GE. bll(il)) ok(il)=.false. |
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112 | ENDIF |
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113 | ENDIF |
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114 | ENDIF |
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115 | ENDIF |
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116 | end do |
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117 | end do |
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118 | |
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119 | c print *,' ==cv3_buoy== bll(1),bmx(1),icb(1),kmx(1) ' |
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120 | c $ ,bll(1),bmx(1),icb(1),kmx(1) |
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121 | |
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122 | c ------------------------------------------------------------- |
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123 | c --Calculate modified buoyancies |
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124 | c ------------------------------------------------------------- |
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125 | |
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126 | do il = 1,ncum |
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127 | IF (Ale(il)+Cin(il) .GT. 0.) THEN |
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128 | bll(il) = min(bll(il),bmx(il)) |
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129 | ENDIF |
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130 | end do |
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131 | |
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132 | do k = 1,nl |
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133 | do il = 1,ncum |
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134 | IF (Ale(il)+Cin(il) .GT. 0.) THEN |
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135 | IF (k .GE. icb(il) .AND. k .LE. kmx(il)-1) THEN |
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136 | buoy(il,k) = bll(il) |
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137 | ENDIF |
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138 | ENDIF |
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139 | end do |
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140 | end do |
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141 | |
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142 | |
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143 | |
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144 | RETURN |
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145 | END |
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