subroutine calcenergy_kcm(Tsurf,T,Play,Plev,Qsurf,Q,muvar,Eatmtot) use params_h, only : Rc use watercommon_h, only : mH2O implicit none ! ---------------------------------------------------------------- ! Purpose: Calculate total energy of the (steam) atmosphere ! Authour: R. Wordsworth (2011) ! ---------------------------------------------------------------- #include "dimensions.h" #include "dimphys.h" #include "comcstfi.h" !#include "callkeys.h" ! inputs real Tsurf,T(1:nlayermx) real Play(1:nlayermx),Plev(1:nlayermx+1) real Qsurf,Q(1:nlayermx) real muvar(1,nlayermx+1) ! internal integer il real m_n,m_v,cp_n,cp_v,cp_a,Eatmlay real s_c,rho_v,L double precision p_v, s_v, nul real VMR(1:nlayermx) ! output real Eatmtot ! functions double precision cp_neutral m_n = mugaz/1000. m_v = mH2O/1000. do il=1,nlayermx VMR(il)=Q(il)*(muvar(1,il+1)/mH2O) end do Eatmtot = 0.0 do il=1,nlayermx cp_n = cp_neutral(dble(T(il))) cp_v = (32.24+1.923d-3*T(il) + 1.055d-5*T(il)**2-3.511d-9*T(il)**3)/m_v ! / by m_v makes it per kg not per mol call psat_H2O(dble(T(il)),p_v) p_v = p_v*1d6 rho_v = real(p_v)*m_v/(real(Rc)*T(il)) call therm(dble(T(il)),dble(rho_v)*1d-3,nul,nul,nul,nul,nul,nul,nul,& nul,nul,nul,s_v,nul) s_c = 2.06 * log(T(il)/273.15) s_v = s_v * 1d3 s_c = s_c * 1d3 L = (real(s_v)-s_c)*T(il) cp_a = (1-VMR(il))*cp_n + VMR(il)*cp_v !cp_a = (1-Q(il))*cp_n + Q(il)*cp_v Eatmlay = ( cp_a*T(il) + L*VMR(il) ) * (Plev(il)-Plev(il+1))/g Eatmtot = Eatmtot + Eatmlay enddo print*,'WARNING: E-calc currently assumes H2O saturation!' end subroutine calcenergy_kcm