subroutine PHY_Atm_AT_ALLOC !------------------------------------------------------------------------------+ ! Sun 16-Jun-2013 MAR | ! | ! subroutine PHY_Atm_AT_ALLOC allocates prognostic variables of | ! Atmospheric Turbulence Scheme used by MAR | ! | ! version 3.p.4.1 created by H. Gallee, Tue 12-Mar-2013 | ! Last Modification by H. Gallee, Sun 16-Jun-2013 | ! | !------------------------------------------------------------------------------+ use Mod_Real use Mod_PHY____grd use Mod_PHY_AT_kkl IMPLICIT NONE ! ================================= ! ALLOCATION Mod_PHY_AT_kkl - BEGIN ! ================================= allocate ( var_AT(kcolp,mzpp) ) ! Dummy to Diffuse [x] allocate ( Ac0_AT( mzp ) ) ! Tridiagonal Matrix Coefficient A: Common Factor [m2/s3] allocate ( Cc0_AT( mzp ) ) ! Tridiagonal Matrix Coefficient C: Common Factor [m2/s3] allocate ( Kz0_AT( mzp ) ) ! Vertical Turbulent Diffusion Coefficient (MINIMUM) [m2/s] allocate ( Ac__AT(kcolp,mzp ) ) ! Tridiagonal Matrix Coefficient A: Common Factor (t) [s/m2] allocate ( Cc__AT(kcolp,mzp ) ) ! Tridiagonal Matrix Coefficient C: Common Factor (t) [s/m2] allocate ( Kz__AT(kcolp,mzp ) ) ! Vertical Turbulent Diffusion Coefficient [m2/s] allocate ( Kzm_AT(kcolp,mzp ) ) ! Vertical Turbulent Diffusion Coefficient (Momentum) [m2/s] allocate ( Kzh_AT(kcolp,mzp ) ) ! Vertical Turbulent Diffusion Coefficient (Scalars) [m2/s] allocate ( Kzh0AT(kcolp,mzp ) ) ! Vertical Turbulent Diffusion Coefficient (Scalars) [m2/s] allocate ( A___AT(kcolp,mzp ) ) ! Tridiagonal Matrix Coefficient A [-] allocate ( B___AT(kcolp,mzp ) ) ! Tridiagonal Matrix Coefficient B [-] allocate ( C___AT(kcolp,mzp ) ) ! Tridiagonal Matrix Coefficient C [-] allocate ( D___AT(kcolp,mzp ) ) ! Independant Term D [x] allocate ( P___AT( mzp ) ) ! Auxiliary Term P [-] allocate ( Q___AT( mzp ) ) ! Auxiliary Term Q [-] allocate ( X___AT( mzp ) ) ! Auxiliary Unknown X [x] allocate ( LMO_AT(kcolp ) ) ! Monin-Obukhov Length (Grid Cell Average) [m] allocate ( zi__AT(kcolp ) ) ! Inversion Height (Grid Cell Average)[m a.g.l.] allocate ( TKE_AT(kcolp,mzp ) ) ! Turbulent Kinetic Energy [m2/s2] allocate ( eps_AT(kcolp,mzp ) ) ! Turbulent Kinetic Energy Dissipation [m2/s3] allocate ( TrT_AT(kcolp,mzp ) ) ! Turbulent Kinetic Energy Transport [m2/s3] allocate ( dua_AT(kcolp,mzp ) ) ! Wind Speed (x-direc.) Tendency [m/s2] allocate ( dva_AT(kcolp,mzp ) ) ! Wind Speed (y-direc.) Tendency [m/s2] allocate ( dpktAT(kcolp,mzp ) ) ! Potential Temperature Tendency, divided by p0**(R/Cp) [x/s] allocate ( dqv_AT(kcolp,mzp ) ) ! Specific Humidity Tendency [kg/kg/s] allocate ( dqw_AT(kcolp,mzp ) ) ! Cloud Droplets Concen.Tendency [kg/kg/s] allocate ( dqi_AT(kcolp,mzp ) ) ! Cloud Crystals Concen.Tendency [kg/kg/s] allocate ( dCi_AT(kcolp,mzp ) ) ! CCNi Concen.Tendency [1/s] allocate ( dqs_AT(kcolp,mzp ) ) ! Snow Particles Concen.Tendency [kg/kg/s] allocate ( dqr_AT(kcolp,mzp ) ) ! Rain Drops Concen.Tendency [kg/kg/s] ! ================================= ! ALLOCATION Mod_PHY_AT_kkl - END ! ================================= end subroutine PHY_Atm_AT_ALLOC