1 | ! |
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2 | ! $Header$ |
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3 | ! |
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4 | subroutine calltherm(dtime |
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5 | s ,pplay,paprs,pphi |
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6 | s ,u_seri,v_seri,t_seri,q_seri |
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7 | s ,d_u_ajs,d_v_ajs,d_t_ajs,d_q_ajs |
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8 | s ,fm_therm,entr_therm) |
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9 | |
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10 | implicit none |
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11 | #include "dimensions.h" |
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12 | #include "dimphy.h" |
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13 | #include "thermcell.h" |
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14 | |
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15 | c A inclure eventuellement dans les fichiers de configuration |
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16 | data r_aspect_thermals,l_mix_thermals,tho_thermals/4.,10.,0./ |
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17 | data w2di_thermals/0/ |
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18 | |
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19 | REAL dtime |
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20 | |
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21 | REAL u_seri(klon,klev),v_seri(klon,klev) |
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22 | REAL t_seri(klon,klev),q_seri(klon,klev) |
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23 | REAL paprs(klon,klev+1) |
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24 | REAL pplay(klon,klev) |
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25 | REAL pphi(klon,klev) |
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26 | |
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27 | CFH Update Thermiques |
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28 | REAL d_t_ajs(klon,klev), d_q_ajs(klon,klev) |
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29 | REAL d_u_ajs(klon,klev),d_v_ajs(klon,klev) |
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30 | real fm_therm(klon,klev+1),entr_therm(klon,klev) |
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31 | |
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32 | |
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33 | c variables locales |
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34 | REAL d_t_the(klon,klev), d_q_the(klon,klev) |
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35 | REAL d_u_the(klon,klev),d_v_the(klon,klev) |
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36 | c |
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37 | real zfm_therm(klon,klev+1),zentr_therm(klon,klev),zdt |
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38 | save zentr_therm,zfm_therm |
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39 | |
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40 | integer i,k |
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41 | |
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42 | ********************************************************* |
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43 | |
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44 | c Modele du thermique |
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45 | c =================== |
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46 | c print*,'thermiques: WARNING on passe t au lieu de t_seri' |
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47 | print*,'avant isplit ',nsplit_thermals |
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48 | |
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49 | |
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50 | fm_therm(:,:)=0. |
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51 | entr_therm(:,:)=0. |
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52 | |
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53 | c tests sur les valeurs negatives de l'eau |
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54 | do k=1,klev |
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55 | do i=1,klon |
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56 | if (.not.q_seri(i,k).ge.0.) then |
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57 | print*,'WARN eau<0 avant therm i=',i,' k=',k |
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58 | s ,' dq,q',d_q_the(i,k),q_seri(i,k) |
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59 | q_seri(i,k)=1.e-15 |
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60 | endif |
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61 | enddo |
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62 | enddo |
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63 | |
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64 | |
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65 | zdt=dtime/float(nsplit_thermals) |
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66 | do isplit=1,nsplit_thermals |
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67 | |
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68 | CALL thermcell(klon,klev,zdt |
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69 | s ,pplay,paprs,pphi |
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70 | s ,u_seri,v_seri,t_seri,q_seri |
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71 | s ,d_u_the,d_v_the,d_t_the,d_q_the |
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72 | s ,zfm_therm,zentr_therm |
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73 | s ,r_aspect_thermals,l_mix_thermals,w2di_thermals |
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74 | s ,tho_thermals,3) |
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75 | |
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76 | c transformation de la derivee en tendance |
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77 | d_t_the(:,:)=d_t_the(:,:)*dtime/float(nsplit_thermals) |
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78 | d_u_the(:,:)=d_u_the(:,:)*dtime/float(nsplit_thermals) |
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79 | d_v_the(:,:)=d_v_the(:,:)*dtime/float(nsplit_thermals) |
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80 | d_q_the(:,:)=d_q_the(:,:)*dtime/float(nsplit_thermals) |
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81 | fm_therm(:,:)=fm_therm(:,:) |
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82 | s +zfm_therm(:,:)/float(nsplit_thermals) |
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83 | entr_therm(:,:)=entr_therm(:,:) |
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84 | s +zentr_therm(:,:)/float(nsplit_thermals) |
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85 | fm_therm(:,klev+1)=0. |
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86 | |
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87 | |
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88 | |
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89 | c accumulation de la tendance |
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90 | d_t_ajs(:,:)=d_t_ajs(:,:)+d_t_the(:,:) |
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91 | d_u_ajs(:,:)=d_u_ajs(:,:)+d_u_the(:,:) |
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92 | d_v_ajs(:,:)=d_v_ajs(:,:)+d_v_the(:,:) |
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93 | d_q_ajs(:,:)=d_q_ajs(:,:)+d_q_the(:,:) |
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94 | |
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95 | c incrementation des variables meteo |
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96 | t_seri(:,:) = t_seri(:,:) + d_t_the(:,:) |
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97 | u_seri(:,:) = u_seri(:,:) + d_u_the(:,:) |
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98 | v_seri(:,:) = v_seri(:,:) + d_v_the(:,:) |
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99 | q_seri(:,:) = q_seri(:,:) + d_q_the(:,:) |
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100 | |
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101 | c tests sur les valeurs negatives de l'eau |
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102 | DO k = 1, klev |
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103 | DO i = 1, klon |
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104 | if (.not.q_seri(i,k).ge.0.) then |
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105 | print*,'WARN eau<0 apres therm i=',i,' k=',k |
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106 | s ,' dq,q',d_q_the(i,k),q_seri(i,k) |
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107 | q_seri(i,k)=1.e-15 |
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108 | endif |
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109 | ENDDO |
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110 | ENDDO |
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111 | |
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112 | enddo ! isplit |
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113 | |
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114 | return |
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115 | |
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116 | end |
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