1 | |
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2 | PRINT*,'FORCING CASE forcing_case2' |
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3 | ! PRINT*, & |
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4 | ! & '#### ITAP,day,day1,(day-day1)*86400,(day-day1)*86400/pdt_cas=', & |
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5 | ! & daytime,day1,(daytime-day1)*86400., & |
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6 | ! & (daytime-day1)*86400/pdt_cas |
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7 | |
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8 | ! time interpolation: |
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9 | CALL interp_case_time_std(daytime,day1,annee_ref & |
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10 | ! & ,year_ini_cas,day_ju_ini_cas,nt_cas,pdt_cas,nlev_cas & |
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11 | ,nt_cas,nlev_cas & |
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12 | ,ts_cas,tskin_cas,ps_cas,plev_cas,t_cas,th_cas,thv_cas,thl_cas,qv_cas,ql_cas,qi_cas & |
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13 | ,u_cas,v_cas,ug_cas,vg_cas & |
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14 | ,temp_nudg_cas,qv_nudg_cas,u_nudg_cas,v_nudg_cas & |
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15 | ,invtau_temp_nudg_cas,invtau_qv_nudg_cas,invtau_u_nudg_cas,invtau_v_nudg_cas & |
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16 | ,vitw_cas,omega_cas,tke_cas,du_cas,hu_cas,vu_cas & |
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17 | ,dv_cas,hv_cas,vv_cas,dt_cas,ht_cas,vt_cas,dtrad_cas & |
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18 | ,dq_cas,hq_cas,vq_cas,dth_cas,hth_cas,vth_cas,lat_cas,sens_cas,ustar_cas & |
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19 | ,uw_cas,vw_cas,q1_cas,q2_cas,tkes_cas & |
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20 | |
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21 | ,ts_prof_cas,tskin_prof_cas,ps_prof_cas,plev_prof_cas,t_prof_cas,theta_prof_cas,thv_prof_cas & |
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22 | ,thl_prof_cas,qv_prof_cas,ql_prof_cas,qi_prof_cas & |
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23 | ,u_prof_cas,v_prof_cas,ug_prof_cas,vg_prof_cas & |
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24 | ,temp_nudg_prof_cas,qv_nudg_prof_cas,u_nudg_prof_cas,v_nudg_prof_cas & |
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25 | ,invtau_temp_nudg_prof_cas,invtau_qv_nudg_prof_cas,invtau_u_nudg_prof_cas,invtau_v_nudg_prof_cas & |
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26 | ,vitw_prof_cas,omega_prof_cas,tke_prof_cas & |
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27 | ,du_prof_cas,hu_prof_cas,vu_prof_cas & |
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28 | ,dv_prof_cas,hv_prof_cas,vv_prof_cas,dt_prof_cas,ht_prof_cas,vt_prof_cas & |
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29 | ,dtrad_prof_cas,dq_prof_cas,hq_prof_cas,vq_prof_cas & |
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30 | ,dth_prof_cas,hth_prof_cas,vth_prof_cas,lat_prof_cas & |
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31 | ,sens_prof_cas,ustar_prof_cas,uw_prof_cas,vw_prof_cas,q1_prof_cas,q2_prof_cas,tkes_prof_cas) |
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32 | ! EV tg instead of ts_cur |
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33 | tg = ts_prof_cas |
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34 | IF ((tg .EQ. 0.) .AND. (tskin_prof_cas .NE. 0.)) THEN |
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35 | tg=tskin_prof_cas |
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36 | endif |
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37 | |
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38 | ! psurf=plev_prof_cas(1) |
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39 | psurf=ps_prof_cas |
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40 | |
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41 | ! vertical interpolation: |
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42 | CALL interp2_case_vertical_std(play,plev,nlev_cas,plev_prof_cas & |
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43 | ,t_prof_cas,theta_prof_cas,thv_prof_cas,thl_prof_cas & |
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44 | ,qv_prof_cas,ql_prof_cas,qi_prof_cas,u_prof_cas,v_prof_cas & |
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45 | ,ug_prof_cas,vg_prof_cas & |
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46 | ,temp_nudg_prof_cas,qv_nudg_prof_cas,u_nudg_prof_cas,v_nudg_prof_cas & |
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47 | ,invtau_temp_nudg_prof_cas,invtau_qv_nudg_prof_cas,invtau_u_nudg_prof_cas,invtau_v_nudg_prof_cas & |
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48 | |
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49 | ,vitw_prof_cas,omega_prof_cas,tke_prof_cas & |
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50 | ,du_prof_cas,hu_prof_cas,vu_prof_cas,dv_prof_cas,hv_prof_cas,vv_prof_cas & |
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51 | ,dt_prof_cas,ht_prof_cas,vt_prof_cas,dtrad_prof_cas,dq_prof_cas,hq_prof_cas,vq_prof_cas & |
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52 | ,dth_prof_cas,hth_prof_cas,vth_prof_cas & |
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53 | |
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54 | ,t_mod_cas,theta_mod_cas,thv_mod_cas,thl_mod_cas,qv_mod_cas,ql_mod_cas,qi_mod_cas & |
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55 | ,u_mod_cas,v_mod_cas,ug_mod_cas,vg_mod_cas & |
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56 | ,temp_nudg_mod_cas,qv_nudg_mod_cas,u_nudg_mod_cas,v_nudg_mod_cas & |
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57 | ,invtau_temp_nudg_mod_cas,invtau_qv_nudg_mod_cas,invtau_u_nudg_mod_cas,invtau_v_nudg_mod_cas & |
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58 | ,w_mod_cas,omega_mod_cas,tke_mod_cas & |
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59 | ,du_mod_cas,hu_mod_cas,vu_mod_cas,dv_mod_cas,hv_mod_cas,vv_mod_cas & |
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60 | ,dt_mod_cas,ht_mod_cas,vt_mod_cas,dtrad_mod_cas,dq_mod_cas,hq_mod_cas,vq_mod_cas & |
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61 | ,dth_mod_cas,hth_mod_cas,vth_mod_cas,mxcalc) |
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62 | |
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63 | |
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64 | DO l=1,llm |
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65 | teta(l)=temp(l)*(100000./play(l))**(rd/rcpd) |
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66 | ENDDO |
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67 | !calcul de l'advection verticale a partir du omega |
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68 | !Calcul des gradients verticaux |
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69 | !initialisation |
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70 | d_t_z(:)=0. |
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71 | d_th_z(:)=0. |
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72 | d_q_z(:)=0. |
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73 | d_u_z(:)=0. |
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74 | d_v_z(:)=0. |
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75 | d_t_dyn_z(:)=0. |
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76 | d_th_dyn_z(:)=0. |
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77 | d_q_dyn_z(:)=0. |
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78 | d_u_dyn_z(:)=0. |
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79 | d_v_dyn_z(:)=0. |
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80 | IF (1==0) THEN |
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81 | DO l=2,llm-1 |
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82 | d_t_z(l)=(temp(l+1)-temp(l-1))/(play(l+1)-play(l-1)) |
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83 | d_th_z(l)=(teta(l+1)-teta(l-1))/(play(l+1)-play(l-1)) |
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84 | d_q_z(l)=(q(l+1,1)-q(l-1,1))/(play(l+1)-play(l-1)) |
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85 | d_u_z(l)=(u(l+1)-u(l-1))/(play(l+1)-play(l-1)) |
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86 | d_v_z(l)=(v(l+1)-v(l-1))/(play(l+1)-play(l-1)) |
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87 | ENDDO |
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88 | else |
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89 | DO l=2,llm-1 |
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90 | IF (omega(l)>0.) THEN |
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91 | d_t_z(l)=(temp(l+1)-temp(l))/(play(l+1)-play(l)) |
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92 | d_th_z(l)=(teta(l+1)-teta(l))/(play(l+1)-play(l)) |
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93 | d_q_z(l)=(q(l+1,1)-q(l,1))/(play(l+1)-play(l)) |
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94 | d_u_z(l)=(u(l+1)-u(l))/(play(l+1)-play(l)) |
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95 | d_v_z(l)=(v(l+1)-v(l))/(play(l+1)-play(l)) |
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96 | ELSE |
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97 | d_t_z(l)=(temp(l-1)-temp(l))/(play(l-1)-play(l)) |
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98 | d_th_z(l)=(teta(l-1)-teta(l))/(play(l-1)-play(l)) |
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99 | d_q_z(l)=(q(l-1,1)-q(l,1))/(play(l-1)-play(l)) |
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100 | d_u_z(l)=(u(l-1)-u(l))/(play(l-1)-play(l)) |
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101 | d_v_z(l)=(v(l-1)-v(l))/(play(l-1)-play(l)) |
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102 | ENDIF |
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103 | ENDDO |
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104 | endif |
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105 | d_t_z(1)=d_t_z(2) |
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106 | d_t_z(1)=d_t_z(2) |
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107 | d_th_z(1)=d_th_z(2) |
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108 | d_q_z(1)=d_q_z(2) |
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109 | d_u_z(1)=d_u_z(2) |
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110 | d_v_z(1)=d_v_z(2) |
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111 | d_t_z(llm)=d_t_z(llm-1) |
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112 | d_th_z(llm)=d_th_z(llm-1) |
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113 | d_q_z(llm)=d_q_z(llm-1) |
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114 | d_u_z(llm)=d_u_z(llm-1) |
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115 | d_v_z(llm)=d_v_z(llm-1) |
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116 | |
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117 | ! TRAVAIL : PRENDRE DES NOTATIONS COHERENTES POUR W |
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118 | DO l = 1, llm |
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119 | ! Modif w_mod_cas -> omega_mod_cas (MM+MPL 20170309) |
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120 | PRINT*, l, llm |
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121 | PRINT*, play(l), temp(l) |
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122 | omega(l) = -w_mod_cas(l)*play(l)*rg/(rd*temp(l)) |
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123 | enddo |
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124 | |
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125 | !Calcul de l advection verticale |
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126 | ! Modif w_mod_cas -> omega_mod_cas (MM+MPL 20170310) |
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127 | d_t_dyn_z(:)=omega(:)*d_t_z(:) |
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128 | d_th_dyn_z(:)=omega(:)*d_th_z(:) |
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129 | d_q_dyn_z(:)=omega(:)*d_q_z(:) |
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130 | d_u_dyn_z(:)=omega(:)*d_u_z(:) |
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131 | d_v_dyn_z(:)=omega(:)*d_v_z(:) |
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132 | |
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133 | !geostrophic wind |
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134 | IF (forc_geo.EQ.1) THEN |
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135 | DO l=1,llm |
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136 | ug(l) = ug_mod_cas(l) |
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137 | vg(l) = vg_mod_cas(l) |
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138 | enddo |
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139 | endif |
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140 | |
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141 | DO l = 1, llm |
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142 | |
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143 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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144 | ! Modif w_mod_cas -> omega_mod_cas (MM+MPL 20170309) |
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145 | !!! omega2(l)= omega(l)/rg*airefi ! flxmass_w calcule comme ds physiq |
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146 | omega(l) = omega_mod_cas(l) |
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147 | omega2(l)= omega_mod_cas(l)/rg*airefi ! flxmass_w calcule comme ds physiq |
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148 | |
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149 | ! On effectue la somme du forcage total et de la decomposition |
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150 | ! horizontal/vertical en supposant que soit l'un soit l'autre |
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151 | ! sont remplis mais jamais les deux |
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152 | |
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153 | d_t_adv(l) = dt_mod_cas(l)+ht_mod_cas(l)+vt_mod_cas(l) |
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154 | d_q_adv(l,1) = dq_mod_cas(l)+hq_mod_cas(l)+vq_mod_cas(l) |
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155 | d_q_adv(l,2) = 0.0 |
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156 | d_u_adv(l) = du_mod_cas(l)+hu_mod_cas(l)+vu_mod_cas(l) |
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157 | d_v_adv(l) = dv_mod_cas(l)+hv_mod_cas(l)+vv_mod_cas(l) |
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158 | |
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159 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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160 | !! CONSERVE EN ATTENDANT QUE LE CAS EN QUESTION FONCTIONNE EN STD !! |
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161 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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162 | !if (forc_w==1) THEN |
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163 | ! d_q_adv(l,1)=d_q_adv(l,1)-d_q_dyn_z(l) |
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164 | ! d_t_adv(l)=d_t_adv(l)-d_t_dyn_z(l) |
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165 | ! d_v_adv(l)=d_v_adv(l)-d_v_dyn_z(l) |
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166 | ! d_u_adv(l)=d_u_adv(l)-d_u_dyn_z(l) |
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167 | ! endif |
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168 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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169 | |
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170 | IF (trad.EQ.1) THEN |
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171 | tend_rayo=1 |
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172 | dt_cooling(l) = dtrad_mod_cas(l) |
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173 | ! PRINT *,'dt_cooling=',dt_cooling(l) |
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174 | else |
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175 | dt_cooling(l) = 0.0 |
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176 | endif |
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177 | enddo |
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178 | |
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179 | ! Faut-il multiplier par -1 ? (MPL 20160713) |
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180 | IF(ok_flux_surf) THEN |
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181 | fsens=-1.*sens_prof_cas |
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182 | flat=-1.*lat_prof_cas |
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183 | PRINT *,'1D_interp: sens,flat',fsens,flat |
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184 | ENDIF |
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185 | |
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186 | IF (ok_prescr_ust) THEN |
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187 | ust=ustar_prof_cas |
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188 | PRINT *,'ust=',ust |
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189 | ENDIF |
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