#define WRF_PORT #define MODAL_AERO !------------------------------------------------------------------------ ! Based on physconst.F90 from CAM ! Ported to WRF by William.Gustafson@pnl.gov, Nov. 2009 ! Updated to version from CESM 1.0.1 Nov. 2010 ! Updated to CESM1.0.3 (CAM5.1.01) by Balwinder.Singh@pnnl.gov !------------------------------------------------------------------------ module physconst ! Physical constants. Use CCSM shared values whenever available. use shr_kind_mod, only: r8 => shr_kind_r8 use shr_const_mod, only: shr_const_g, shr_const_stebol, shr_const_tkfrz, & shr_const_mwdair, shr_const_rdair, shr_const_mwwv, & shr_const_latice, shr_const_latvap, shr_const_cpdair, & shr_const_rhofw, shr_const_cpwv, shr_const_rgas, & shr_const_karman, shr_const_pstd, shr_const_rhodair,& shr_const_avogad, shr_const_boltz, shr_const_cpfw, & shr_const_rwv, shr_const_zvir, shr_const_pi, & shr_const_rearth, shr_const_sday, shr_const_cday, & shr_const_spval implicit none private public :: physconst_readnl save ! Constants based off share code or defined in physconst real(r8), public, parameter :: avogad = shr_const_avogad ! Avogadro's number (molecules/kmole) real(r8), public, parameter :: boltz = shr_const_boltz ! Boltzman's constant (J/K/molecule) real(r8), public, parameter :: cday = shr_const_cday ! sec in calendar day ~ sec real(r8), public, parameter :: cpair = shr_const_cpdair ! specific heat of dry air (J/K/kg) real(r8), public, parameter :: cpliq = shr_const_cpfw ! specific heat of fresh h2o (J/K/kg) real(r8), public, parameter :: karman = shr_const_karman ! Von Karman constant real(r8), public, parameter :: latice = shr_const_latice ! Latent heat of fusion (J/kg) real(r8), public, parameter :: latvap = shr_const_latvap ! Latent heat of vaporization (J/kg) real(r8), public, parameter :: pi = shr_const_pi ! 3.14... real(r8), public, parameter :: pstd = shr_const_pstd ! Standard pressure (Pascals) real(r8), public, parameter :: r_universal = shr_const_rgas ! Universal gas constant (J/K/kmol) real(r8), public, parameter :: rhoh2o = shr_const_rhofw ! Density of liquid water (STP) real(r8), public, parameter :: spval = shr_const_spval !special value real(r8), public, parameter :: stebol = shr_const_stebol ! Stefan-Boltzmann's constant (W/m^2/K^4) real(r8), public, parameter :: c0 = 2.99792458e8_r8 ! Speed of light in a vacuum (m/s) real(r8), public, parameter :: planck = 6.6260755e-34_r8 ! Planck's constant (J.s) ! Molecular weights real(r8), public, parameter :: mwco2 = 44._r8 ! molecular weight co2 real(r8), public, parameter :: mwn2o = 44._r8 ! molecular weight n2o real(r8), public, parameter :: mwch4 = 16._r8 ! molecular weight ch4 real(r8), public, parameter :: mwf11 = 136._r8 ! molecular weight cfc11 real(r8), public, parameter :: mwf12 = 120._r8 ! molecular weight cfc12 real(r8), public, parameter :: mwo3 = 48._r8 ! molecular weight O3 real(r8), public, parameter :: mwso2 = 64._r8 real(r8), public, parameter :: mwso4 = 96._r8 real(r8), public, parameter :: mwh2o2 = 34._r8 real(r8), public, parameter :: mwdms = 62._r8 ! modifiable physical constants for aquaplanet real(r8), public :: gravit = shr_const_g ! gravitational acceleration (m/s**2) real(r8), public :: sday = shr_const_sday ! sec in siderial day ~ sec real(r8), public :: mwh2o = shr_const_mwwv ! molecular weight h2o real(r8), public :: cpwv = shr_const_cpwv ! specific heat of water vapor (J/K/kg) real(r8), public :: mwdry = shr_const_mwdair! molecular weight dry air real(r8), public :: rearth = shr_const_rearth! radius of earth (m) real(r8), public :: tmelt = shr_const_tkfrz ! Freezing point of water (K) !--------------- Variables below here are derived from those above ----------------------- real(r8), public :: rga = 1._r8/shr_const_g ! reciprocal of gravit real(r8), public :: ra = 1._r8/shr_const_rearth ! reciprocal of earth radius real(r8), public :: omega = 2.0_R8*shr_const_pi/shr_const_sday! earth rot ~ rad/sec real(r8), public :: rh2o = shr_const_rgas/shr_const_mwwv ! Water vapor gas constant ~ J/K/kg real(r8), public :: rair = shr_const_rdair ! Dry air gas constant ~ J/K/kg real(r8), public :: epsilo = shr_const_mwwv/shr_const_mwdair ! ratio of h2o to dry air molecular weights real(r8), public :: zvir = (shr_const_rwv/shr_const_rdair)-1.0_R8 ! (rh2o/rair) - 1 real(r8), public :: cpvir = (shr_const_cpwv/shr_const_cpdair)-1.0_R8 ! CPWV/CPDAIR - 1.0 real(r8), public :: rhodair = shr_const_pstd/(shr_const_rdair*shr_const_tkfrz) real(r8), public :: cappa = (shr_const_rgas/shr_const_mwdair)/shr_const_cpdair ! R/Cp real(r8), public :: ez ! Coriolis expansion coeff -> omega/sqrt(0.375) real(r8), public :: Cpd_on_Cpv = shr_const_cpdair/shr_const_cpwv !================================================================================================ contains !================================================================================================ ! Read namelist variables. subroutine physconst_readnl(nlfile) #ifndef WRF_PORT use namelist_utils, only: find_group_name use units, only: getunit, freeunit use mpishorthand use spmd_utils, only: masterproc use abortutils, only: endrun use cam_logfile, only: iulog #endif character(len=*), intent(in) :: nlfile ! filepath for file containing namelist input #ifndef WRF_PORT ! Local variables integer :: unitn, ierr character(len=*), parameter :: subname = 'physconst_readnl' logical newg, newsday, newmwh2o, newcpwv, newmwdry, newrearth, newtmelt ! Physical constants needing to be reset (ie. for aqua planet experiments) namelist /physconst_nl/ cpwv, gravit, mwdry, mwh2o, rearth, sday, tmelt !----------------------------------------------------------------------------- if (masterproc) then unitn = getunit() open( unitn, file=trim(nlfile), status='old' ) call find_group_name(unitn, 'physconst_nl', status=ierr) if (ierr == 0) then read(unitn, physconst_nl, iostat=ierr) if (ierr /= 0) then call endrun(subname // ':: ERROR reading namelist') end if end if close(unitn) call freeunit(unitn) end if #ifdef SPMD ! Broadcast namelist variables call mpibcast(cpwv, 1, mpir8, 0, mpicom) call mpibcast(gravit, 1, mpir8, 0, mpicom) call mpibcast(mwdry, 1, mpir8, 0, mpicom) call mpibcast(mwh2o, 1, mpir8, 0, mpicom) call mpibcast(rearth, 1, mpir8, 0, mpicom) call mpibcast(sday, 1, mpir8, 0, mpicom) call mpibcast(tmelt, 1, mpir8, 0, mpicom) #endif newg = gravit .ne. shr_const_g newsday = sday .ne. shr_const_sday newmwh2o = mwh2o .ne. shr_const_mwwv newcpwv = cpwv .ne. shr_const_cpwv newmwdry = mwdry .ne. shr_const_mwdair newrearth= rearth .ne. shr_const_rearth newtmelt = tmelt .ne. shr_const_tkfrz if (newg .or. newsday .or. newmwh2o .or. newcpwv .or. newmwdry .or. newrearth .or. newtmelt) then if (masterproc) then write(iulog,*)'****************************************************************************' #ifdef WRF_PORT call wrf_message(iulog) #endif write(iulog,*)'*** New Physical Constant Values set via namelist ***' #ifdef WRF_PORT call wrf_message(iulog) #endif write(iulog,*)'*** ***' #ifdef WRF_PORT call wrf_message(iulog) #endif write(iulog,*)'*** Physical Constant Old Value New Value ***' #ifdef WRF_PORT call wrf_message(iulog) #endif if (newg) write(iulog,*)'*** GRAVITY ',shr_const_g,gravit,'***' if (newsday) write(iulog,*)'*** SDAY ',shr_const_sday,sday,'***' if (newmwh2o) write(iulog,*)'*** MWH20 ',shr_const_mwwv,mwh2o,'***' if (newcpwv) write(iulog,*)'*** CPWV ',shr_const_cpwv,cpwv,'***' if (newmwdry) write(iulog,*)'*** MWDRY ',shr_const_mwdair,mwdry,'***' if (newrearth) write(iulog,*)'*** REARTH ',shr_const_rearth,rearth,'***' if (newtmelt) write(iulog,*)'*** TMELT ',shr_const_tkfrz,tmelt,'***' write(iulog,*)'****************************************************************************' #ifdef WRF_PORT call wrf_message(iulog) #endif end if rga = 1._r8/gravit ra = 1._r8/rearth omega = 2.0_R8*pi/sday cpvir = cpwv/cpair - 1._r8 epsilo = mwh2o/mwdry ! rair and rh2o have to be defined before any of the variables that use them rair = r_universal/mwdry rh2o = r_universal/mwh2o cappa = rair/cpair rhodair = pstd/(rair*tmelt) zvir = (rh2o/rair)-1.0_R8 ez = omega / sqrt(0.375_r8) Cpd_on_Cpv = cpair/cpwv else ez = omega / sqrt(0.375_r8) end if #endif end subroutine physconst_readnl end module physconst