1 | subroutine evap_generic(ngrid,nlayer,nq,dtime,pt,pq,pdq,pdt,igcm_generic_vap, & |
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2 | igcm_generic_ice,dqevap,dtevap,qevap,tevap) |
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3 | Use generic_cloud_common_h |
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4 | Use tracer_h |
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5 | implicit none |
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6 | !================================================================== |
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7 | ! |
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8 | ! Purpose |
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9 | ! ------- |
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10 | ! Evaporation of all generic tracers in the atmopshere. |
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11 | ! |
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12 | ! Authors |
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13 | ! ------- |
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14 | ! Adapted from evap.F by Lucas Teinturier (2022) |
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15 | ! evap.F is adapted from the LMDTERRE code by B. Charnay (2010) |
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16 | ! Original author Z. X. Li (1993) |
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17 | ! |
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18 | !================================================================== |
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19 | !Inputs |
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20 | integer, intent(in) :: ngrid,nlayer,nq |
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21 | real, intent(in) :: pt(ngrid,nlayer) !Temperature (K) |
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22 | real, intent(in) :: pq(ngrid,nlayer,nq) ! Tracers (kg/kg) |
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23 | real, intent(in) :: pdt(ngrid,nlayer) !Tendency on temperature (K/s) |
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24 | real, intent(in) :: pdq(ngrid,nlayer,nq) ! Tendency on tracer (kg/kg/s) |
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25 | real, intent(in) :: dtime ! physical timestep |
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26 | integer,intent(in) :: igcm_generic_vap ! index of the vapor generic tracer |
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27 | integer,intent(in) :: igcm_generic_ice !index of the ice generic tracer |
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28 | |
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29 | ! Ouputs |
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30 | real,intent(out) :: qevap(ngrid,nlayer,nq) |
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31 | real,intent(out) :: tevap(ngrid,nlayer) |
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32 | real,intent(out) :: dqevap(ngrid,nlayer) |
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33 | real,intent(out) :: dtevap(ngrid,nlayer) |
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34 | |
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35 | ! Local variables |
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36 | real zlvdcp |
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37 | integer l,ig ! Used for loops on the layers and grid and the tracers respectively |
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38 | |
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39 | ! Evaporate all the ice from the tracer |
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40 | zlvdcp = RLVTT/cpp ! RLVTT is the latent heat of vaporization (comes from generic_cloud_common_h attention) |
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41 | |
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42 | DO l=1,nlayer |
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43 | DO ig=1,ngrid |
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44 | qevap(ig,l,igcm_generic_vap) = pq(ig,l,igcm_generic_vap) & |
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45 | +pdq(ig,l,igcm_generic_vap)*dtime |
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46 | qevap(ig,l,igcm_generic_ice) = pq(ig,l,igcm_generic_ice) & |
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47 | +pdq(ig,l,igcm_generic_ice)*dtime |
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48 | tevap(ig,l) = pt(ig,l)+pdt(ig,l)*dtime |
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49 | dqevap(ig,l) = max(0.,qevap(ig,l,igcm_generic_ice))/dtime |
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50 | dtevap(ig,l) = -dqevap(ig,l)*zlvdcp |
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51 | qevap(ig,l,igcm_generic_vap) = qevap(ig,l,igcm_generic_vap) & |
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52 | +dqevap(ig,l)*dtime |
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53 | qevap(ig,l,igcm_generic_ice) = 0. |
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54 | tevap(ig,l) = tevap(ig,l) + dtevap(ig,l)*dtime |
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55 | ENDDO ! ngrid |
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56 | ENDDO ! nlayer |
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57 | |
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58 | end subroutine evap_generic |
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59 | |
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