1 | !*************************************************************************************** |
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2 | ! tend_to_tke.F90 |
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3 | !************* |
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4 | ! |
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5 | ! Subroutine that adds a tendency on the TKE created by the |
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6 | ! fluxes of momentum retrieved from the wind speed tendencies |
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7 | ! of the physics. |
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8 | ! |
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9 | ! The basic concept is the following: |
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10 | ! the TKE equation writes de/dt = -u'w' du/dz -v'w' dv/dz +g/theta dtheta/dz +...... |
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11 | ! |
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12 | ! |
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13 | ! We expect contributions to the term u'w' and v'w' that do not come from the Yamada |
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14 | ! scheme, for instance: gravity waves, drag from high vegetation..... These contributions |
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15 | ! need to be accounted for. |
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16 | ! we explicitely calculate the fluxes, integrating the wind speed |
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17 | ! tendency from the top of the atmospher |
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18 | ! |
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19 | ! |
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20 | ! |
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21 | ! contacts: Frederic Hourdin, Etienne Vignon |
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22 | ! |
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23 | ! History: |
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24 | !--------- |
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25 | ! - 1st redaction, Etienne, 15/10/2016 |
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26 | ! Ajout des 4 sous surfaces pour la tke |
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27 | ! on sort l'ajout des tendances du if sur les deux cas, pour ne pas |
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28 | ! dupliuqer les lignes |
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29 | ! on enleve le pas de temps qui disprait dans les calculs |
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30 | ! |
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31 | ! |
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32 | !************************************************************************************** |
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33 | |
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34 | SUBROUTINE tend_to_tke(dt,plev,exner,temp,windu,windv,dt_a,du_a,dv_a,tke) |
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35 | |
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36 | USE dimphy, ONLY: klon, klev |
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37 | USE indice_sol_mod, ONLY: nbsrf |
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38 | USE phys_local_var_mod, only: dtke_t, dtke_u, dtke_v |
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39 | #include "YOMCST.h" |
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40 | |
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41 | ! Declarations |
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42 | !============== |
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43 | |
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44 | |
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45 | ! Inputs |
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46 | !------- |
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47 | REAL dt ! Time step [s] |
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48 | REAL plev(klon,klev+1) ! inter-layer pressure [Pa] |
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49 | REAL temp(klon,klev) ! temperature [K], grid-cell average or for a one subsurface |
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50 | REAL windu(klon,klev) ! zonal wind [m/s], grid-cell average or for a one subsurface |
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51 | REAL windv(klon,klev) ! meridonal wind [m/s], grid-cell average or for a one subsurface |
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52 | REAL exner(klon,klev) ! Fonction d'Exner = T/theta |
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53 | REAL dt_a(klon,klev) ! Temperature tendency [K], grid-cell average or for a one subsurface |
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54 | REAL du_a(klon,klev) ! Zonal wind speed tendency [m/s], grid-cell average or for a one subsurface |
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55 | REAL dv_a(klon,klev) ! Meridional wind speed tendency [m/s], grid-cell average or for a one subsurface |
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56 | |
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57 | ! Inputs/Outputs |
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58 | !--------------- |
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59 | REAL tke(klon,klev,nbsrf) ! Turbulent Kinetic energy [m2/s2], grid-cell average or for a subsurface |
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60 | |
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61 | |
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62 | ! Local |
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63 | !------- |
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64 | |
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65 | |
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66 | INTEGER ig,k,isrf ! indices |
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67 | REAL masse(klon,klev) ! mass in the layers [kg/m2] |
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68 | REAL unsmasse(klon,klev+1) ! linear mass in the layers [kg/m2] |
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69 | REAL flux_rhotw(klon,klev+1) ! flux massique de tempe. pot. rho*u'*theta' |
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70 | REAL flux_rhouw(klon,klev+1) ! flux massique de quantit?? de mouvement rho*u'*w' [kg/m/s2] |
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71 | REAL flux_rhovw(klon,klev+1) ! flux massique de quantit?? de mouvement rho*v'*w' [kg/m/s2] |
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72 | REAL tendt(klon,klev) ! new temperature tke tendency [m2/s2/s] |
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73 | REAL tendu(klon,klev) ! new zonal tke tendency [m2/s2/s] |
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74 | REAL tendv(klon,klev) ! new meridonal tke tendency [m2/s2/s] |
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75 | |
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76 | |
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77 | |
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78 | |
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79 | ! First calculations: |
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80 | !===================== |
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81 | |
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82 | unsmasse(:,:)=0. |
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83 | DO k=1,klev |
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84 | masse(:,k)=(plev(:,k)-plev(:,k+1))/RG |
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85 | unsmasse(:,k)=unsmasse(:,k)+0.5/masse(:,k) |
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86 | unsmasse(:,k+1)=unsmasse(:,k+1)+0.5/masse(:,k) |
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87 | END DO |
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88 | |
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89 | tendu(:,:)=0.0 |
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90 | tendv(:,:)=0.0 |
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91 | |
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92 | ! Method 1: Calculation of fluxes using a downward integration |
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93 | !============================================================ |
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94 | |
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95 | |
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96 | |
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97 | ! Flux calculation |
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98 | |
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99 | flux_rhotw(:,klev+1)=0. |
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100 | flux_rhouw(:,klev+1)=0. |
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101 | flux_rhovw(:,klev+1)=0. |
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102 | |
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103 | DO k=klev,1,-1 |
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104 | flux_rhotw(:,k)=flux_rhotw(:,k+1)+masse(:,k)*dt_a(:,k)/exner(:,k) |
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105 | flux_rhouw(:,k)=flux_rhouw(:,k+1)+masse(:,k)*du_a(:,k) |
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106 | flux_rhovw(:,k)=flux_rhovw(:,k+1)+masse(:,k)*dv_a(:,k) |
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107 | ENDDO |
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108 | |
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109 | |
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110 | ! TKE update: |
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111 | |
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112 | DO k=2,klev |
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113 | tendt(:,k)=-flux_rhotw(:,k)*(exner(:,k)-exner(:,k-1))*unsmasse(:,k)*RCPD |
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114 | tendu(:,k)=-flux_rhouw(:,k)*(windu(:,k)-windu(:,k-1))*unsmasse(:,k) |
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115 | tendv(:,k)=-flux_rhovw(:,k)*(windv(:,k)-windv(:,k-1))*unsmasse(:,k) |
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116 | ENDDO |
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117 | tendt(:,1)=-flux_rhotw(:,1)*(exner(:,1)-1.)*unsmasse(:,1)*RCPD |
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118 | tendu(:,1)=-1.*flux_rhouw(:,1)*windu(:,1)*unsmasse(:,1) |
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119 | tendv(:,1)=-1.*flux_rhovw(:,1)*windv(:,1)*unsmasse(:,1) |
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120 | |
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121 | |
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122 | DO isrf=1,nbsrf |
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123 | DO k=1,klev |
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124 | tke(:,k,isrf)= tke(:,k,isrf)+tendu(:,k)+tendv(:,k)+tendt(:,k) |
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125 | tke(:,k,isrf)= max(tke(:,k,isrf),1.e-10) |
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126 | ENDDO |
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127 | ENDDO |
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128 | |
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129 | dtke_t(:,:)=tendt(:,:) |
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130 | dtke_u(:,:)=tendu(:,:) |
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131 | dtke_v(:,:)=tendv(:,:) |
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132 | |
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133 | |
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134 | IF (klon==1) THEN |
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135 | CALL iophys_ecrit('u',klev,'u','',windu) |
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136 | CALL iophys_ecrit('v',klev,'v','',windu) |
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137 | CALL iophys_ecrit('t',klev,'t','',temp) |
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138 | CALL iophys_ecrit('tke1',klev,'tke1','',tke(:,1:klev,1)) |
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139 | CALL iophys_ecrit('tke2',klev,'tke2','',tke(:,1:klev,2)) |
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140 | CALL iophys_ecrit('tke3',klev,'tke3','',tke(:,1:klev,3)) |
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141 | CALL iophys_ecrit('tke4',klev,'tke4','',tke(:,1:klev,4)) |
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142 | CALL iophys_ecrit('theta',klev,'theta','',temp/exner) |
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143 | CALL iophys_ecrit('Duv',klev,'Duv','',tendu(:,1:klev)+tendv(:,1:klev)) |
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144 | CALL iophys_ecrit('Dt',klev,'Dt','',tendt(:,1:klev)) |
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145 | ENDIF |
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146 | |
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147 | END SUBROUTINE tend_to_tke |
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