subroutine PHY_Atm_CM_ALLOC !------------------------------------------------------------------------------+ ! Sun 9-Jun-2013 MAR | ! | ! subroutine PHY_Atm_CM_ALLOC allocates prognostic variables of | ! Cloud Microphysical Scheme used by MAR | ! | ! version 3.p.4.1 created by H. Gallee, Tue 19-Mar-2013 | ! Last Modification by H. Gallee, Sun 9-Jun-2013 | ! | !------------------------------------------------------------------------------+ use Mod_Real use Mod_PHY____grd use Mod_PHY_CM_kkl IMPLICIT NONE ! ================================= ! ALLOCATION Mod_PHY_CM_kkl - BEGIN ! ================================= allocate ( Ta__CM(kcolp,mzp ) ) ! Air Temperature [K] allocate ( qvswCM(kcolp,mzpp) ) ! Saturation Specific Humidity (over liquid water) [kg/kg] allocate ( qvsiCM(kcolp,mzpp) ) ! Saturation Specific Humidity (over ice) [kg/kg] allocate ( qw__CM(kcolp,mzpp) ) ! Cloud Droplets Concentration [kg/kg] allocate ( qwd_CM(kcolp,mzp ) ) ! Cloud Droplets Concentration Variation [kg/kg] allocate ( CCNwCM(kcolp,mzp ) ) ! Cloud Droplets Number [-/m3] allocate ( qi__CM(kcolp,mzpp) ) ! Cloud Ice Particles Concentration [kg/kg] allocate ( qid_CM(kcolp,mzp ) ) ! Cloud Ice Particles Concentration Variation [kg/kg] allocate ( CCNiCM(kcolp,mzp ) ) ! Cloud Ice Particles Number [-/m3] allocate ( CFraCM(kcolp,mzp ) ) ! Cloud Fraction [-] allocate ( qs__CM(kcolp,mzpp) ) ! Snow Particles Concentration [kg/kg] ! #qg allocate ( qg__CM(kcolp,mzpp) ) ! Graupels Concentration [kg/kg] allocate ( qr__CM(kcolp,mzpp) ) ! Rain Drops Concentration [kg/kg] allocate ( HLatCM(kcolp,mzp ) ) ! Latent Heat Release [W/m2] allocate ( uss_CM(kcolp) ) ! Snow Particles Turbulent Surface Flux [kg m/s] allocate ( Ice0CM(kcolp) ) ! Ice C.Accumulation (time t-dt) [m w.e.] allocate ( ICE_CM(kcolp) ) ! Ice C.Accumulation (time t ) [m w.e.] allocate ( Sno0CM(kcolp) ) ! Snow Accumulation (time t-dt, before snow erosion) [m w.e.] allocate ( SnobCM(kcolp) ) ! Snow Accumulation (time t-dt, after snow erosion) [m w.e.] allocate ( SnowCM(kcolp) ) ! Snow Accumulation (time t ) [m w.e.] allocate ( Rai0CM(kcolp) ) ! Rain Accumulation (time t-dt) [m w.e.] allocate ( RainCM(kcolp) ) ! Rain Accumulation (time t ) [m w.e.] allocate ( dpktCM(kcolp,mzp ) ) ! Reduced Potential Temperature TENDENCY [KX/s] allocate ( dqv_CM(kcolp,mzp ) ) ! Specific Humidity TENDENCY [kg/kg/s] allocate ( dqw_CM(kcolp,mzp ) ) ! Cloud Droplets Concentration TENDENCY [kg/kg/s] allocate ( dqi_CM(kcolp,mzp ) ) ! Cloud Crystals Concentration TENDENCY [kg/kg/s] allocate ( dqs_CM(kcolp,mzp ) ) ! Snow Particles Concentration TENDENCY [kg/kg/s] allocate ( dqr_CM(kcolp,mzp ) ) ! Rain Drops Concentration TENDENCY [kg/kg/s] ! #cw allocate ( dCw_CM(kcolp,mzp ) ) ! CCN Concentration TENDENCY [1/s] allocate ( dCi_CM(kcolp,mzp ) ) ! CIN Concentration TENDENCY [1/s] allocate ( dCF_CM(kcolp,mzp ) ) ! Cloud Fraction TENDENCY [1/s] allocate ( wat0EW(kcolp) ) ! Total Precipitable Water in the Air Column [m w.e.] allocate ( wat1EW(kcolp) ) ! Total Precipitable Water in the Air Column [m w.e.] allocate ( wat2EW(kcolp) ) ! Total Precipitable Water in the Air Column [m w.e.] allocate ( watfEW(kcolp) ) ! Water Flux (Atm. --> Srf.) during 1 Time Step [m w.e.] allocate ( enr0EW(kcolp) ) ! Total Energy (Sens. +Lat.) in the Air Column [m w.e.] allocate ( enr1EW(kcolp) ) ! Total Energy (Sens. +Lat.) in the Air Column [m w.e.] allocate ( enr2EW(kcolp) ) ! Total Energy (Sens. +Lat.) in the Air Column [m w.e.] allocate ( mphyEW(kcolp) ) ! [m w.e.] ! Isotopes Proxies ! ~~~~~~~~~~~~~~~~ allocate ( Hcd_CM(kcolp) ) ! latent heat release [mm w.e.] allocate ( Tcd_CM(kcolp) ) ! latent heat release weighted Air Temperature [K] allocate ( Zcd_CM(kcolp) ) ! latent heat release weighted Altitude [m] allocate ( Hsb_CM(kcolp) ) ! latent heat absorb. [mm w.e.] allocate ( Tsb_CM(kcolp) ) ! latent heat absorb. weighted Air Temperature [K] allocate ( Zsb_CM(kcolp) ) ! latent heat absorb. weighted Altitude [m] ! ================================= ! ALLOCATION Mod_PHY_CM_kkl - END ! ================================= end subroutine PHY_Atm_CM_ALLOC