source: NEMO/trunk/src/OCE/DOM/phycst.F90 @ 9656

MODULE phycst
   !!======================================================================
   !!                    ***  MODULE  phycst  ***
   !!     Definition of of both ocean and ice parameters used in the code
   !!=====================================================================
   !! History :   OPA  !  1990-10  (C. Levy - G. Madec)  Original code
   !!             8.1  !  1991-11  (G. Madec, M. Imbard)  cosmetic changes
   !!   NEMO      1.0  !  2002-08  (G. Madec, C. Ethe)  F90, add ice constants
   !!              -   !  2006-08  (G. Madec)  style 
   !!             3.2  !  2006-08  (S. Masson, G. Madec)  suppress useless variables + style 
   !!             3.4  !  2011-11  (C. Harris)  minor changes for CICE constants 
   !!----------------------------------------------------------------------

   !!----------------------------------------------------------------------
   !!   phy_cst  : define and print physical constant and domain parameters
   !!----------------------------------------------------------------------
   USE par_oce          ! ocean parameters
   USE in_out_manager   ! I/O manager

   IMPLICIT NONE
   PRIVATE

   PUBLIC   phy_cst     ! routine called by inipar.F90

   REAL(wp), PUBLIC ::   rpi = 3.141592653589793_wp             !: pi
   REAL(wp), PUBLIC ::   rad = 3.141592653589793_wp / 180._wp   !: conversion from degre into radian
   REAL(wp), PUBLIC ::   rsmall = 0.5 * EPSILON( 1.e0 )         !: smallest real computer value
   
   REAL(wp), PUBLIC ::   rday = 24.*60.*60.     !: day                                [s]
   REAL(wp), PUBLIC ::   rsiyea                 !: sideral year                       [s]
   REAL(wp), PUBLIC ::   rsiday                 !: sideral day                        [s]
   REAL(wp), PUBLIC ::   raamo =  12._wp        !: number of months in one year
   REAL(wp), PUBLIC ::   rjjhh =  24._wp        !: number of hours in one day
   REAL(wp), PUBLIC ::   rhhmm =  60._wp        !: number of minutes in one hour
   REAL(wp), PUBLIC ::   rmmss =  60._wp        !: number of seconds in one minute
   REAL(wp), PUBLIC ::   omega                  !: earth rotation parameter           [s-1]
   REAL(wp), PUBLIC ::   ra    = 6371229._wp    !: earth radius                       [m]
   REAL(wp), PUBLIC ::   grav  = 9.80665_wp     !: gravity                            [m/s2]
   
   REAL(wp), PUBLIC ::   rtt      = 273.16_wp        !: triple point of temperature   [Kelvin]
   REAL(wp), PUBLIC ::   rt0      = 273.15_wp        !: freezing point of fresh water [Kelvin]
   REAL(wp), PUBLIC ::   rt0_snow = 273.15_wp        !: melting point of snow         [Kelvin]
#if defined key_si3
   REAL(wp), PUBLIC ::   rt0_ice  = 273.15_wp        !: melting point of ice          [Kelvin]
#else
   REAL(wp), PUBLIC ::   rt0_ice  = 273.05_wp        !: melting point of ice          [Kelvin]
#endif
   REAL(wp), PUBLIC ::   rau0                        !: volumic mass of reference     [kg/m3]
   REAL(wp), PUBLIC ::   r1_rau0                     !: = 1. / rau0                   [m3/kg]
   REAL(wp), PUBLIC ::   rcp                         !: ocean specific heat           [J/Kelvin]
   REAL(wp), PUBLIC ::   r1_rcp                      !: = 1. / rcp                    [Kelvin/J]
   REAL(wp), PUBLIC ::   rau0_rcp                    !: = rau0 * rcp 
   REAL(wp), PUBLIC ::   r1_rau0_rcp                 !: = 1. / ( rau0 * rcp )

   REAL(wp), PUBLIC ::   rhosn    =  330._wp         !: volumic mass of snow          [kg/m3]
   REAL(wp), PUBLIC ::   rhofw    = 1000._wp         !: volumic mass of freshwater in melt ponds [kg/m3]
   REAL(wp), PUBLIC ::   emic     =    0.97_wp       !: emissivity of snow or ice
   REAL(wp), PUBLIC ::   sice     =    6.0_wp        !: salinity of ice               [psu]
   REAL(wp), PUBLIC ::   soce     =   34.7_wp        !: salinity of sea               [psu]
   REAL(wp), PUBLIC ::   cevap    =    2.5e+6_wp     !: latent heat of evaporation (water)
   REAL(wp), PUBLIC ::   srgamma  =    0.9_wp        !: correction factor for solar radiation (Oberhuber, 1974)
   REAL(wp), PUBLIC ::   vkarmn   =    0.4_wp        !: von Karman constant
   REAL(wp), PUBLIC ::   stefan   =    5.67e-8_wp    !: Stefan-Boltzmann constant 

#if defined key_si3 || defined key_cice
   REAL(wp), PUBLIC ::   rhoic    =  917._wp         !: volumic mass of sea ice                               [kg/m3]
   REAL(wp), PUBLIC ::   rcdic    =    2.034396_wp   !: thermal conductivity of fresh ice                     [W/m/K]
   REAL(wp), PUBLIC ::   cpic     = 2067.0_wp        !: specific heat of fresh ice                            [J/kg/K]
   REAL(wp), PUBLIC ::   lsub     =    2.834e+6_wp   !: pure ice latent heat of sublimation                   [J/kg]
   REAL(wp), PUBLIC ::   lfus     =    0.334e+6_wp   !: latent heat of fusion of fresh ice                    [J/kg]
   REAL(wp), PUBLIC ::   tmut     =    0.054_wp      !: decrease of seawater meltpoint with salinity
   REAL(wp), PUBLIC ::   xlsn                        !: = lfus*rhosn (volumetric latent heat fusion of snow)  [J/m3]
#else
   REAL(wp), PUBLIC ::   rhoic    =  900._wp         !: volumic mass of sea ice                               [kg/m3]
   REAL(wp), PUBLIC ::   rcdic    =    2.034396_wp   !: conductivity of the ice                               [W/m/K]
   REAL(wp), PUBLIC ::   rcpic    =    1.8837e+6_wp  !: volumetric specific heat for ice                      [J/m3/K]
   REAL(wp), PUBLIC ::   cpic                        !: = rcpic / rhoic  (specific heat for ice)              [J/Kg/K]
   REAL(wp), PUBLIC ::   rcdsn    =    0.22_wp       !: conductivity of the snow                              [W/m/K]
   REAL(wp), PUBLIC ::   rcpsn    =    6.9069e+5_wp  !: volumetric specific heat for snow                     [J/m3/K]
   REAL(wp), PUBLIC ::   xlsn     =  110.121e+6_wp   !: volumetric latent heat fusion of snow                 [J/m3]
   REAL(wp), PUBLIC ::   lfus                        !: = xlsn / rhosn   (latent heat of fusion of fresh ice) [J/Kg]
   REAL(wp), PUBLIC ::   xlic     =  300.33e+6_wp    !: volumetric latent heat fusion of ice                  [J/m3]
   REAL(wp), PUBLIC ::   xsn      =    2.8e+6_wp     !: volumetric latent heat of sublimation of snow         [J/m3]
#endif
#if defined key_cice
   REAL(wp), PUBLIC ::   rcdsn    =    0.31_wp       !: thermal conductivity of snow                          [W/m/K]
#endif
#if defined key_si3
   REAL(wp), PUBLIC ::   r1_rhoic                    !: 1 / rhoic
   REAL(wp), PUBLIC ::   r1_rhosn                    !: 1 / rhosn
   REAL(wp), PUBLIC ::   r1_cpic                     !: 1 / cpic
#endif
   !!----------------------------------------------------------------------
   !! NEMO/OCE 4.0 , NEMO Consortium (2018)
   !! $Id$ 
   !! Software governed by the CeCILL licence (./LICENSE)
   !!----------------------------------------------------------------------
   
CONTAINS
   
   SUBROUTINE phy_cst
      !!----------------------------------------------------------------------
      !!                       ***  ROUTINE phy_cst  ***
      !!
      !! ** Purpose :   set and print the constants
      !!----------------------------------------------------------------------

      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) 'phy_cst : initialization of ocean parameters and constants'
      IF(lwp) WRITE(numout,*) '~~~~~~~'

      ! Define & print constants
      ! ------------------------
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '   Constants'

      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '      mathematical constant                 rpi = ', rpi

      rsiyea = 365.25_wp * rday * 2._wp * rpi / 6.283076_wp
      rsiday = rday / ( 1._wp + rday / rsiyea )
#if defined key_cice
      omega  = 7.292116e-05
#else
      omega  = 2._wp * rpi / rsiday 
#endif
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '      day                                rday   = ', rday,   ' s'
      IF(lwp) WRITE(numout,*) '      sideral year                       rsiyea = ', rsiyea, ' s'
      IF(lwp) WRITE(numout,*) '      sideral day                        rsiday = ', rsiday, ' s'
      IF(lwp) WRITE(numout,*) '      omega                              omega  = ', omega,  ' s^-1'
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '      nb of months per year               raamo = ', raamo, ' months'
      IF(lwp) WRITE(numout,*) '      nb of hours per day                 rjjhh = ', rjjhh, ' hours'
      IF(lwp) WRITE(numout,*) '      nb of minutes per hour              rhhmm = ', rhhmm, ' mn'
      IF(lwp) WRITE(numout,*) '      nb of seconds per minute            rmmss = ', rmmss, ' s'
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '      earth radius                         ra   = ', ra, ' m'
      IF(lwp) WRITE(numout,*) '      gravity                              grav = ', grav , ' m/s^2'
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '      triple point of temperature      rtt      = ', rtt     , ' K'
      IF(lwp) WRITE(numout,*) '      freezing point of water          rt0      = ', rt0     , ' K'
      IF(lwp) WRITE(numout,*) '      melting point of snow            rt0_snow = ', rt0_snow, ' K'
      IF(lwp) WRITE(numout,*) '      melting point of ice             rt0_ice  = ', rt0_ice , ' K'
      IF(lwp) WRITE(numout,*)
      IF(lwp) WRITE(numout,*) '   reference density and heat capacity now defined in eosbn2.f90'
              
#if defined key_si3 || defined key_cice
      xlsn = lfus * rhosn        ! volumetric latent heat fusion of snow [J/m3]
#else
      cpic = rcpic / rhoic       ! specific heat for ice   [J/Kg/K]
      lfus = xlsn / rhosn        ! latent heat of fusion of fresh ice
#endif
#if defined key_si3
      r1_rhoic = 1._wp / rhoic
      r1_rhosn = 1._wp / rhosn
      r1_cpic  = 1._wp / cpic
#endif
      IF(lwp) THEN
         WRITE(numout,*)
#if defined key_cice
         WRITE(numout,*) '      thermal conductivity of the snow          = ', rcdsn   , ' J/s/m/K'
#endif
         WRITE(numout,*) '      thermal conductivity of pure ice          = ', rcdic   , ' J/s/m/K'
         WRITE(numout,*) '      fresh ice specific heat                   = ', cpic    , ' J/kg/K'
         WRITE(numout,*) '      latent heat of fusion of fresh ice / snow = ', lfus    , ' J/kg'
#if defined key_si3 || defined key_cice
         WRITE(numout,*) '      latent heat of subl.  of fresh ice / snow = ', lsub    , ' J/kg'
#else
         WRITE(numout,*) '      density times specific heat for snow      = ', rcpsn   , ' J/m^3/K' 
         WRITE(numout,*) '      density times specific heat for ice       = ', rcpic   , ' J/m^3/K'
         WRITE(numout,*) '      volumetric latent heat fusion of sea ice  = ', xlic    , ' J/m' 
         WRITE(numout,*) '      latent heat of sublimation of snow        = ', xsn     , ' J/kg' 
#endif
         WRITE(numout,*) '      volumetric latent heat fusion of snow     = ', xlsn    , ' J/m^3' 
         WRITE(numout,*) '      density of sea ice                        = ', rhoic   , ' kg/m^3'
         WRITE(numout,*) '      density of snow                           = ', rhosn   , ' kg/m^3'
         WRITE(numout,*) '      density of freshwater (in melt ponds)     = ', rhofw   , ' kg/m^3'
         WRITE(numout,*) '      emissivity of snow or ice                 = ', emic  
         WRITE(numout,*) '      salinity of ice                           = ', sice    , ' psu'
         WRITE(numout,*) '      salinity of sea                           = ', soce    , ' psu'
         WRITE(numout,*) '      latent heat of evaporation (water)        = ', cevap   , ' J/m^3' 
         WRITE(numout,*) '      correction factor for solar radiation     = ', srgamma 
         WRITE(numout,*) '      von Karman constant                       = ', vkarmn 
         WRITE(numout,*) '      Stefan-Boltzmann constant                 = ', stefan  , ' J/s/m^2/K^4'
         WRITE(numout,*)
         WRITE(numout,*) '      conversion: degre ==> radian          rad = ', rad
         WRITE(numout,*)
         WRITE(numout,*) '      smallest real computer value       rsmall = ', rsmall
      ENDIF

   END SUBROUTINE phy_cst

   !!======================================================================
END MODULE phycst