!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! Fast scheme for NLTE cooling rates at 15um by CO2 in a Martian GCM ! ! Version dlvr11_03. 2012. ! ! Software written and provided by IAA/CSIC, Granada, Spain, ! ! under ESA contract "Mars Climate Database and Physical Models" ! ! Person of contact: Miguel Angel Lopez Valverde valverde@iaa.es ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! c********************************************************************** c c Includes the following 1-d model subroutines: c c -MZESC110_dlvr11_03.f c -MZTUD110_dlvr11_03.f c -MZMC121_dlvr11_03.f c -MZTUD121_dlvr11_03.f c -MZESC121_dlvr11_03.f c -MZESC121sub_dlvr11_03.f c -MZTVC121_dlvr11.f c -MZTVC121sub_dlvr11_03.f c *** Old MZESC110_dlvr11_03.f c********************************************************************** c*********************************************************************** subroutine MZESC110 (ig,nl_cts_real, nzy_cts_real,ierr,varerr) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments integer nl_cts_real, nzy_cts_real ! i integer ig c old arguments integer ierr ! o real*8 varerr ! o c local variables and constants integer i, iaquiHIST , iaquiZ integer isot real*8 argumento real*8 tauinf(nl_cts) real*8 con(nzy_cts), coninf real*8 c1, c2 , ccc real*8 t1, t2 real*8 p1, p2 real*8 mr1, mr2 real*8 st1, st2 real*8 c1box(nbox_max), c2box(nbox_max) real*8 ff ! to avoid too small numbers real*8 st, beta, ts real*8 tyd(nzy_cts) real*8 correc real*8 deltanudbl, deltazdbl real*8 yy c external function external we_clean real*8 we_clean c*********************************************************************** ierr = 0 varerr = 0.d0 c beta = 1.8d5 ibcode1 = '1' isot = 1 deltanudbl = dble(deltanu(1,1)) deltazdbl = dble(deltaz_cts) ff=1.0d10 ccc do i=1,nzy_cts_real tyd(i) = dble(ty_cts(i)) con(i) = dble( co2y_cts(i) * imr(isot) ) correc = 2.d0 * dexp( -ee*dble(elow(isot,2))/tyd(i) ) con(i) = con(i) * ( 1.d0 - correc ) mr_cts(i) = dble(co2y_cts(i)/nty_cts(i)) end do if ( con(nzy_cts_real) .le. 0.0d0 ) then ierr = 33 varerr = con(nzy_cts_real) return elseif ( con(nzy_cts_real-1) .le. con(nzy_cts_real) ) then write (*,*) ' WARNING in MZESC110 ' write (*,*) ' [CO2] growing with altitude at TOA.' write (*,*) ' [CO2] @ TOA = ', con(nzy_cts_real) coninf = dble( con(nzy_cts_real) ) else coninf = dble( con(nzy_cts_real) / @ log( con(nzy_cts_real-1) / con(nzy_cts_real) ) ) endif ccc call gethist_03 ( 1 ) c c tauinf c call initial iaquiHIST = nhist/2 iaquiZ = nzy_cts_real - 2 do i=nl_cts_real,1,-1 if(i.eq.nl_cts_real)then call intzhunt_cts (iaquiZ, zl_cts(i), nzy_cts_real, @ c2,p2,mr2,t2, con) do kr=1,nbox ta(kr)=t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) ! Check interpolation errors : if (c2.le.0.0d0) then ierr=15 varerr=c2 return elseif (p2.le.0.0d0) then ierr=16 varerr=p2 return elseif (mr2.le.0.0d0) then ierr=17 varerr=mr2 return elseif (t2.le.0.0d0) then ierr=18 varerr=t2 return elseif (st2.le.0.0d0) then ierr=19 varerr=st2 return endif ! aa = p2 * coninf * mr2 * (st2 * ff) cc = coninf * st2 dd = t2 * coninf * st2 do kr=1,nbox ccbox(kr) = coninf * ka(kr) ddbox(kr) = t2 * ccbox(kr) c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl else call intzhunt_cts (iaquiZ, zl_cts(i), nzy_cts_real, @ c1,p1,mr1,t1, con) do kr=1,nbox ta(kr)=t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 ccc = ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + @ ( c1box(kr) + c2box(kr) )/2.d0 ddbox(kr) = ddbox(kr) + @ ( t1*c1box(kr)+t2*c2box(kr) )/2.d0 end do mr2 = mr1 c2=c1 do kr=1,nbox c2box(kr) = c1box(kr) end do t2=t1 p2=p1 end if pp = aa / (cc*ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tauinf(i) = dexp( - argumento ) if (i.eq.nl_cts_real) then taustar11_cts(i) = 0.0d0 else taustar11_cts(i) = deltanudbl * (tauinf(i+1)-tauinf(i)) @ / ( beta * ccc ) endif end do call mzescape_normaliz_02 ( taustar11_cts, nl_cts_real, 2 ) c end return end c *** Old MZTUD110_dlvr11_03.f c*********************************************************************** subroutine MZTUD110( ierr, varerr ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments integer ierr ! o real*8 varerr ! o c local variables and constants integer i, in, ir, iaquiHIST , iaquiZ integer ib, isot real*8 tau(nl,nl), argumento real*8 tauinf(nl) real*8 con(nzy), coninf real*8 c1, c2 real*8 t1, t2 real*8 p1, p2 real*8 mr1, mr2 real*8 st1, st2 real*8 c1box(nbox_max), c2box(nbox_max) real*8 ff ! to avoid too small numbers real*8 tvtbs(nzy) real*8 st, beta, ts real*8 zld(nl), zyd(nzy), deltazdbl real*8 correc real*8 deltanudbl real*8 maxtau, yy c external function external we_clean real*8 we_clean c*********************************************************************** ierr = 0 varerr = 0.d0 c ib = 1 beta = 1.8d5 ibcode1 = '1' isot = 1 deltanudbl = dble(deltanu(1,1)) deltazdbl = dble(deltaz) ff=1.0d10 ccc do i=1,nzy zyd(i) = dble(zy(i)) enddo do i=1,nl zld(i) = dble(zl(i)) enddo call interhuntdp ( tvtbs,zyd,nzy, v626t1,zld,nl, 1 ) do i=1,nzy con(i) = dble( co2y(i) * imr(isot) ) correc = 2.d0 * dexp( -ee*dble(elow(isot,2))/tvtbs(i) ) con(i) = con(i) * ( 1.d0 - correc ) mr(i) = dble(co2y(i)/nty(i)) end do if ( con(nzy) .le. 0.0d0 ) then ierr = 43 varerr = con(nzy) return elseif ( con(nzy-1) .le. con(nzy) ) then write (*,*) ' WARNING in MZTUD110 ' write (*,*) ' [CO2] grows with height at CurtisMatrix top.' write (*,*) ' [CO2] @ top = ', con(nzy) coninf = dble( con(nzy) ) else coninf = dble( con(nzy) / log( con(nzy-1) / con(nzy) ) ) endif call mztf_correccion ( coninf, con, ib ) ccc call gethist_03 ( 1 ) c c tauinf c call initial iaquiHIST = nhist/2 iaquiZ = nzy - 2 do i=nl,1,-1 if(i.eq.nl)then call intzhunt (iaquiZ, zl(i),c2,p2,mr2,t2, con) do kr=1,nbox ta(kr)=t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) ! Check interpolation errors : if (c2.le.0.0d0) then ierr=45 varerr=c2 return elseif (p2.le.0.0d0) then ierr=46 varerr=p2 return elseif (mr2.le.0.0d0) then ierr=47 varerr=mr2 return elseif (t2.le.0.0d0) then ierr=48 varerr=t2 return elseif (st2.le.0.0d0) then ierr=49 varerr=st2 return endif ! aa = p2 * coninf * mr2 * (st2 * ff) cc = coninf * st2 dd = t2 * coninf * st2 do kr=1,nbox ccbox(kr) = coninf * ka(kr) ddbox(kr) = t2 * ccbox(kr) c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl else call intzhunt (iaquiZ, zl(i),c1,p1,mr1,t1, con) do kr=1,nbox ta(kr)=t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do ! Check interpolation errors : if (c1.le.0.0d0) then ierr=75 varerr=c1 return elseif (p1.le.0.0d0) then ierr=76 varerr=p1 return elseif (mr1.le.0.0d0) then ierr=77 varerr=mr1 return elseif (t1.le.0.0d0) then ierr=78 varerr=t1 return elseif (st1.le.0.0d0) then ierr=79 varerr=st1 return endif ! c1 = c1 * st1 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + @ ( c1box(kr) + c2box(kr) )/2.d0 ddbox(kr) = ddbox(kr) + @ ( t1*c1box(kr)+t2*c2box(kr) )/2.d0 end do mr2 = mr1 c2=c1 do kr=1,nbox c2box(kr) = c1box(kr) end do t2=t1 p2=p1 end if pp = aa / (cc*ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tauinf(i) = dexp( - argumento ) end do c c tau c iaquiZ = 2 do 1 in=1,nl-1 call initial call intzhunt (iaquiZ, zl(in), c1,p1,mr1,t1, con) do kr=1,nbox ta(kr) = t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl do 2 ir=in,nl-1 if (ir.eq.in) then tau(in,ir) = 1.d0 goto 2 end if call intzhunt (iaquiZ, zl(ir), c2,p2,mr2,t2, con) do kr=1,nbox ta(kr) = t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) do kr=1,nbox c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + $ ( c1box(kr) + c2box(kr) ) / 2.d0 ddbox(kr) = ddbox(kr) + $ ( t1*c1box(kr) + t2*c2box(kr) ) / 2.d0 end do mr1=mr2 t1=t2 c1=c2 p1=p2 do kr=1,nbox c1box(kr) = c2box(kr) end do pp = aa / (cc * ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tau(in,ir) = exp( - argumento ) 2 continue 1 continue c c tau(in,ir) for n>r c in=nl call initial iaquiZ = nzy - 2 call intzhunt (iaquiZ, zl(in), c1,p1,mr1,t1, con) do kr=1,nbox ta(kr) = t1 end do call interstrhunt (iaquiHIST,st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl do 4 ir=in-1,1,-1 call intzhunt (iaquiZ, zl(ir), c2,p2,mr2,t2, con) do kr=1,nbox ta(kr) = t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) do kr=1,nbox c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + $ ( c1box(kr) + c2box(kr) ) / 2.d0 ddbox(kr) = ddbox(kr) + $ ( t1*c1box(kr) + t2*c2box(kr) ) / 2.d0 end do mr1=mr2 c1=c2 t1=t2 p1=p2 do kr=1,nbox c1box(kr) = c2box(kr) end do pp = aa / (cc * ff) ts = dd / cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt (iaquiHIST, st,ts,ka,ta) call intershphunt (iaquiHIST, alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tau(in,ir) = exp( - argumento ) 4 continue c c c do in=nl-1,2,-1 do ir=in-1,1,-1 tau(in,ir) = tau(ir,in) end do end do c c Tracking potential numerical errors c maxtau = 0.0d0 do in=nl-1,2,-1 do ir=in-1,1,-1 maxtau = max( maxtau, tau(in,ir) ) end do end do if (maxtau .gt. 1.0d0) then ierr = 42 varerr = maxtau return endif c call MZCUD110 ( tauinf,tau ) c end return end c *** Old file MZCUD_dlvr11.f *** c*********************************************************************** subroutine MZCUD110 ( tauinf,tau ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments real*8 tau(nl,nl) ! i real*8 tauinf(nl) ! i c local variables integer i, in, ir real*8 a(nl,nl), cf(nl,nl), pideltanu, deltazdp, pi c*********************************************************************** pi = 3.141592 pideltanu = pi * dble(deltanu(1,1)) deltazdp = 2.0d5 * dble(deltaz) do in=1,nl do ir=1,nl cf(in,ir) = 0.0d0 c110(in,ir) = 0.0d0 a(in,ir) = 0.0d0 end do vc110(in) = 0.0d0 end do c do in=1,nl do ir=1,nl if (ir.eq.1) then cf(in,ir) = tau(in,ir) - tau(in,1) elseif (ir.eq.nl) then cf(in,ir) = tauinf(in) - tau(in,ir-1) else cf(in,ir) = tau(in,ir) - tau(in,ir-1) end if end do end do c do in=2,nl-1 do ir=1,nl if (ir.eq.in+1) a(in,ir) = -1.d0 if (ir.eq.in-1) a(in,ir) = +1.d0 a(in,ir) = a(in,ir) / deltazdp end do end do c do in=1,nl do ir=1,nl cf(in,ir) = cf(in,ir) * pideltanu end do end do do in=2,nl-1 do ir=1,nl do i=1,nl c110(in,ir) = c110(in,ir) + a(in,i) * cf(i,ir) end do end do end do do in=2,nl-1 vc110(in) = pideltanu/deltazdp * @ ( tau(in-1,1) - tau(in+1,1) ) end do c do in=2,nl-1 c110(in,nl-2) = c110(in,nl-2) - c110(in,nl) c110(in,nl-1) = c110(in,nl-1) + 2.d0*c110(in,nl) end do c end return end c *** Old MZMC121_dlvr11_03.f *** c*********************************************************************** subroutine MZMC121 c*********************************************************************** implicit none ! common variables & constants include 'nlte_paramdef.h' include 'nlte_commons.h' ! local variables real*8 cax1(nl,nl) real*8 v1(nl), cm_factor, vc_factor real nuaux1, nuaux2, nuaux3 real*8 faux2,faux3, daux2,daux3 real*8 varerr integer i,j,ik,ib integer ierr ************************************************************************ c121(1:nl,1:nl)=0.d0 ! call zerom (c121,nl) vc121(1:nl)=0.d0 ! call zerov (vc121,nl) nuaux1 = nu(1,2) - nu(1,1) ! 667.75 nuaux2 = nu12_0200-nu(1,1) ! 618.03 nuaux3 = nu12_1000-nu(1,1) ! 720.81 faux2 = dble(nuaux2/nuaux1) faux3 = dble(nuaux3/nuaux1) daux2 = dble(nuaux1-nuaux2) daux3 = dble(nuaux1-nuaux3) do 11, ik=1,3 ib=ik+1 cax1(1:nl,1:nl)=0.d0 ! call zerom (cax1,nl) call MZTUD121 ( cax1,v1, ib, ierr, varerr ) if (ierr .gt. 0) call ERRORS (ierr,varerr) do i=1,nl if(ik.eq.1)then cm_factor = faux2**2.d0 * exp( daux2*ee/dble(t(i)) ) vc_factor = 1.d0/faux2 elseif(ik.eq.2)then cm_factor = 1.d0 vc_factor = 1.d0 elseif(ik.eq.3)then cm_factor = faux3**2.d0 * exp( daux3*ee/dble(t(i)) ) vc_factor = 1.d0 / faux3 else write (*,*) ' Error in 626 hot band index ik =', ik stop ' ik can only be = 2,3,4. Check needed.' end if do j=1,nl c121(i,j) = c121(i,j) + cax1(i,j) * cm_factor end do vc121(i) = vc121(i) + v1(i) * vc_factor end do 11 continue return end c *** Old MZTUD121_dlvr11_03.f *** c*********************************************************************** subroutine MZTUD121 ( cf,vc, ib, ierr, varerr ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments real*8 cf(nl,nl) ! o real*8 vc(nl) ! o integer ib ! i integer ierr ! o real*8 varerr ! o c local variables and constants integer i, in, ir, iaquiHIST, iaquiZ integer isot real*8 tau(nl,nl), argumento, deltazdbl real*8 tauinf(nl) real*8 con(nzy), coninf real*8 c1, c2 real*8 t1, t2 real*8 p1, p2 real*8 mr1, mr2 real*8 st1, st2 real*8 c1box(nbox_max), c2box(nbox_max) real*8 ff ! to avoid too small numbers real*8 tvtbs(nzy) real*8 st, beta, ts real*8 zld(nl), zyd(nzy) real*8 correc real*8 deltanudbl real*8 yy c external function external we_clean real*8 we_clean c formats 101 format(i1) c*********************************************************************** ierr = 0 varerr = 0.d0 c some values beta = 1.8d5 isot = 1 write (ibcode1,101) ib deltanudbl = dble( deltanu(isot,ib) ) ff=1.0d10 deltazdbl = dble(deltaz) ccc ccc ccc do i=1,nl zld(i) = dble(zl(i)) enddo do i=1,nzy zyd(i) = dble(zy(i)) enddo call interhuntdp ( tvtbs,zyd,nzy, v626t1,zld,nl, 1 ) do i=1,nzy con(i) = dble( co2y(i) * imr(isot) ) correc = 2.d0 * exp( -ee*dble(elow(isot,2))/tvtbs(i) ) con(i) = con(i) * ( 1.d0 - correc ) mr(i) = dble( co2y(i) / nty(i) ) end do if ( con(nzy) .le. 0.0d0 ) then ierr = 83 varerr = con(nzy) return elseif ( con(nzy-1) .le. con(nzy) ) then write (*,*) ' WARNING in MZTUD121 ' write (*,*) ' [CO2] grows with height at CurtisMatrix top.' write (*,*) ' [CO2] @ top = ', con(nzy) coninf = dble( con(nzy) ) else coninf = dble( con(nzy) / log( con(nzy-1) / con(nzy) ) ) endif call mztf_correccion ( coninf, con, ib ) ccc call gethist_03 ( ib ) c c tauinf(nl) c call initial iaquiZ = nzy - 2 iaquiHIST = nhist / 2 do i=nl,1,-1 if(i.eq.nl)then call intzhunt ( iaquiZ, zl(i),c2,p2,mr2,t2, con) do kr=1,nbox ta(kr)=t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) aa = p2 * coninf * mr2 * (st2 * ff) cc = coninf * st2 dd = t2 * coninf * st2 do kr=1,nbox ccbox(kr) = coninf * ka(kr) ddbox(kr) = t2 * ccbox(kr) c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl else call intzhunt ( iaquiZ, zl(i),c1,p1,mr1,t1, con) do kr=1,nbox ta(kr)=t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do ! Check interpolation errors : if (c1.le.0.0d0) then ierr=85 varerr=c1 return elseif (p1.le.0.0d0) then ierr=86 varerr=p1 return elseif (mr1.le.0.0d0) then ierr=87 varerr=mr1 return elseif (t1.le.0.0d0) then ierr=88 varerr=t1 return elseif (st1.le.0.0d0) then ierr=89 varerr=st1 return endif ! c1 = c1 * st1 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + @ ( c1box(kr) + c2box(kr) )/2.d0 ddbox(kr) = ddbox(kr) + @ ( t1*c1box(kr)+t2*c2box(kr) )/2.d0 end do mr2 = mr1 c2=c1 do kr=1,nbox c2box(kr) = c1box(kr) end do t2=t1 p2=p1 end if pp = aa / (cc*ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) c eqw = 0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tauinf(i) = dexp( - argumento ) end do ! i continue c c tau(in,ir) for n<=r c iaquiZ = 2 do 1 in=1,nl-1 call initial call intzhunt ( iaquiZ, zl(in), c1,p1,mr1,t1, con) do kr=1,nbox ta(kr) = t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl do 2 ir=in,nl-1 if (ir.eq.in) then tau(in,ir) = 1.d0 goto 2 end if call intzhunt ( iaquiZ, zl(ir), c2,p2,mr2,t2, con) do kr=1,nbox ta(kr) = t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) do kr=1,nbox c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + $ ( c1box(kr) + c2box(kr) ) / 2.d0 ddbox(kr) = ddbox(kr) + $ ( t1*c1box(kr) + t2*c2box(kr) ) / 2.d0 end do mr1=mr2 t1=t2 c1=c2 p1=p2 do kr=1,nbox c1box(kr) = c2box(kr) end do pp = aa / (cc * ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) c eqw = 0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tau(in,ir) = dexp( - argumento ) 2 continue 1 continue c c tau(in,ir) for n>r c in=nl call initial iaquiZ = nzy - 2 call intzhunt ( iaquiZ, zl(in), c1,p1,mr1,t1, con) do kr=1,nbox ta(kr) = t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl do 4 ir=in-1,1,-1 call intzhunt ( iaquiZ, zl(ir), c2,p2,mr2,t2, con) do kr=1,nbox ta(kr) = t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) do kr=1,nbox c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + $ ( c1box(kr) + c2box(kr) ) / 2.d0 ddbox(kr) = ddbox(kr) + $ ( t1*c1box(kr) + t2*c2box(kr) ) / 2.d0 end do mr1=mr2 c1=c2 t1=t2 p1=p2 do kr=1,nbox c1box(kr) = c2box(kr) end do pp = aa / (cc * ff) ts = dd / cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt (iaquiHIST, st,ts,ka,ta) call intershphunt (iaquiHIST, alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tau(in,ir) = dexp( - argumento ) 4 continue c c c do in=nl-1,2,-1 do ir=in-1,1,-1 tau(in,ir) = tau(ir,in) end do end do c call MZCUD121 ( tauinf,tau, cf, vc, ib ) c end return end c *** Old MZCUD121_dlvr11.f *** c*********************************************************************** subroutine MZCUD121 ( tauinf,tau, c,vc, ib ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments real*8 c(nl,nl) ! o real*8 vc(nl) ! o real*8 tau(nl,nl) ! i real*8 tauinf(nl) ! i integer ib ! i c local variables integer i, in, ir, isot real*8 a(nl,nl), cf(nl,nl), pideltanu, deltazdbl,pi c*********************************************************************** pi=3.141592 isot = 1 pideltanu = pi*dble(deltanu(isot,ib)) deltazdbl = dble(deltaz) c do in=1,nl do ir=1,nl cf(in,ir) = 0.0d0 c(in,ir) = 0.0d0 a(in,ir) = 0.0d0 end do vc(in) = 0.0d0 end do c do in=1,nl do ir=1,nl if (ir.eq.1) then cf(in,ir) = tau(in,ir) - tau(in,1) elseif (ir.eq.nl) then cf(in,ir) = tauinf(in) - tau(in,ir-1) else cf(in,ir) = tau(in,ir) - tau(in,ir-1) end if end do end do c do in=2,nl-1 do ir=1,nl if (ir.eq.in+1) a(in,ir) = -1.d0 if (ir.eq.in-1) a(in,ir) = +1.d0 a(in,ir) = a(in,ir) / ( 2.d5*deltazdbl ) end do end do c do in=1,nl do ir=1,nl cf(in,ir) = cf(in,ir) * pideltanu end do end do do in=2,nl-1 do ir=1,nl do i=1,nl c(in,ir) = c(in,ir) + a(in,i) * cf(i,ir) end do end do vc(in) = pideltanu /( 2.d5*deltazdbl ) * @ ( tau(in-1,1) - tau(in+1,1) ) end do c do in=2,nl-1 c(in,nl-2) = c(in,nl-2) - c(in,nl) c(in,nl-1) = c(in,nl-1) + 2.d0*c(in,nl) end do c end return end c *** Old MZESC121_dlvr11_03.f *** c*********************************************************************** subroutine MZESC121 c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c local variables integer i,ierr real*8 factor0200, factor0220, factor1000 real*8 aux_0200(nl), aux2_0200(nl) real*8 aux_0220(nl), aux2_0220(nl) real*8 aux_1000(nl), aux2_1000(nl) real*8 varerr c*********************************************************************** ! call zerov (taustar12, nl) taustar12(1:nl)=0.d0 call zero2v(aux_0200,aux2_0200, nl) call zero2v(aux_0220,aux2_0220, nl) call zero2v(aux_1000,aux2_1000, nl) call MZESC121sub (aux_0200,aux2_0200, 2 , ierr, varerr) if (ierr .gt. 0) call ERRORS (ierr,varerr) call MZESC121sub (aux_0220,aux2_0220, 3 , ierr, varerr) if (ierr .gt. 0) call ERRORS (ierr,varerr) call MZESC121sub (aux_1000,aux2_1000, 4 , ierr, varerr) if (ierr .gt. 0) call ERRORS (ierr,varerr) factor0220 = 1.d0 factor0200 = dble( (nu(1,2)-nu(1,1)) / (nu12_0200-nu(1,1)) ) factor1000 = dble( (nu(1,2)-nu(1,1)) / (nu12_1000-nu(1,1)) ) do i=1,nl taustar12(i) = taustar12(i) @ + aux_0200(i) * factor0200 @ + aux_0220(i) * factor0220 @ + aux_1000(i) * factor1000 enddo call mzescape_normaliz ( taustar12, 2 ) c end return end c *** Old MZESC121sub_dlvr11_03.f *** c*********************************************************************** subroutine MZESC121sub (taustar,tauinf, ib, ierr, varerr ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments real*8 taustar(nl) ! o real*8 tauinf(nl) ! o integer ib ! i integer ierr ! o real*8 varerr ! o c local variables and constants integer i, iaquiHIST, iaquiZ, isot real*8 con(nzy), coninf real*8 c1, c2, ccc real*8 t1, t2 real*8 p1, p2 real*8 mr1, mr2 real*8 st1, st2 real*8 c1box(70), c2box(70) real*8 ff ! to avoid too small numbers real*8 tvtbs(nzy) real*8 st, beta, ts real*8 zld(nl), zyd(nzy) real*8 correc real*8 deltanudbl, deltazdbl real*8 yy c external function external we_clean real*8 we_clean c formats 101 format(i1) c*********************************************************************** ierr = 0 varerr = 0.d0 c beta = 1.8d5 isot = 1 write ( ibcode1, 101) ib deltanudbl = dble( deltanu(isot,ib) ) ff=1.0d10 deltazdbl = dble(deltaz) c do i=1,nzy zyd(i) = dble(zy(i)) enddo do i=1,nl zld(i) = dble(zl(i)) enddo call interhuntdp ( tvtbs,zyd,nzy, v626t1,zld,nl, 1 ) do i=1,nzy con(i) = dble( co2y(i) * imr(isot) ) correc = 2.d0 * dexp( -ee*dble(elow(isot,2))/tvtbs(i) ) con(i) = con(i) * ( 1.d0 - correc ) mr(i) = dble(co2y(i)/nty(i)) end do if ( con(nzy) .le. 0.0d0 ) then ierr = 63 varerr = con(nzy) return elseif ( con(nzy-1) .le. con(nzy) ) then write (*,*) ' WARNING in MZESC121sub ' write (*,*) ' [CO2] grows with height at CurtisMatrix top.' write (*,*) ' [CO2] @ top = ', con(nzy) coninf = dble( con(nzy) ) else coninf = dble( con(nzy) / log( con(nzy-1) / con(nzy) ) ) endif call mztf_correccion ( coninf, con, ib ) c call gethist_03 ( ib ) c c tauinf c call initial iaquiHIST = nhist/2 iaquiZ = nzy - 2 do i=nl,1,-1 if(i.eq.nl)then call intzhunt (iaquiZ, zl(i),c2,p2,mr2,t2, con) do kr=1,nbox ta(kr)=t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) ! Check interpolation errors : if (c2.le.0.0d0) then ierr=65 varerr=c2 return elseif (p2.le.0.0d0) then ierr=66 varerr=p2 return elseif (mr2.le.0.0d0) then ierr=67 varerr=mr2 return elseif (t2.le.0.0d0) then ierr=68 varerr=t2 return elseif (st2.le.0.0d0) then ierr=69 varerr=st2 return endif ! aa = p2 * coninf * mr2 * (st2 * ff) cc = coninf * st2 dd = t2 * coninf * st2 do kr=1,nbox ccbox(kr) = coninf * ka(kr) ddbox(kr) = t2 * ccbox(kr) c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl else call intzhunt (iaquiZ, zl(i),c1,p1,mr1,t1, con) do kr=1,nbox ta(kr)=t1 end do call interstrhunt (iaquiHIST,st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 ccc = ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + @ ( c1box(kr) + c2box(kr) )/2.d0 ddbox(kr) = ddbox(kr) + @ ( t1*c1box(kr)+t2*c2box(kr) )/2.d0 end do mr2 = mr1 c2=c1 do kr=1,nbox c2box(kr) = c1box(kr) end do t2=t1 p2=p1 end if pp = aa / (cc*ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST,st,ts,ka,ta) call intershphunt(iaquiHIST,alsa,alda,ta) c eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do tauinf(i) = dexp( - eqw / deltanudbl ) if (tauinf(i).lt.0.d0) tauinf(i) = 0.0d0 if (i.eq.nl) then taustar(i) = 0.0d0 else taustar(i) = deltanudbl * (tauinf(i+1)-tauinf(i)) @ / ( beta * ccc ) endif end do c end return end c *** Old MZTVC121_dlvr11.f *** c*********************************************************************** subroutine MZTVC121 c*********************************************************************** implicit none !!!!!!!!!!!!!!!!!!!!!!! ! common variables & constants include 'nlte_paramdef.h' include 'nlte_commons.h' integer ierr real*8 varerr ! local variables real*8 v1(nl), vc_factor integer i,ik,ib ************************************************************************ ! call zerov( vc121, nl ) vc121(1:nl)=0.d0 do 11, ik=1,3 ib=ik+1 call MZTVC121sub (v1, ib, ierr,varerr ) do i=1,nl if(ik.eq.1)then vc_factor = @ dble( (nu(1,2)-nu(1,1)) / (nu12_0200-nu(1,1)) ) elseif(ik.eq.2)then vc_factor = 1.d0 elseif(ik.eq.3)then vc_factor = @ dble( (nu(1,2)-nu(1,1)) / (nu12_1000-nu(1,1)) ) end if vc121(i) = vc121(i) + v1(i) * vc_factor end do 11 continue return end c *** Old MZTVC121sub_dlvr11_03.f *** c*********************************************************************** subroutine MZTVC121sub ( vc, ib, ierr, varerr ) c*********************************************************************** implicit none include 'nlte_paramdef.h' include 'nlte_commons.h' c arguments real*8 vc(nl) ! o integer ib ! i integer ierr ! o real*8 varerr ! o c local variables and constants integer i, in, ir, iaquiHIST , iaquiZ, isot real*8 tau(nl,nl), argumento real*8 con(nzy), coninf real*8 c1, c2 real*8 t1, t2 real*8 p1, p2 real*8 mr1, mr2 real*8 st1, st2 real*8 c1box(70), c2box(70) real*8 ff ! to avoid too small numbers real*8 tvtbs(nzy) real*8 st, beta, ts real*8 zld(nl), zyd(nzy), deltazdbl real*8 correc real*8 deltanudbl, pideltanu,pi real*8 yy real*8 minvc, maxtau c external function external we_clean real*8 we_clean c formats 101 format(i1) c*********************************************************************** ierr = 0 varerr = 0.d0 c pi=3.141592 isot = 1 beta = 1.8d5 write (ibcode1,101) ib deltanudbl = dble( deltanu(isot,ib) ) pideltanu = pi*deltanudbl ff=1.0d10 deltazdbl = dble(deltaz) c c c do i=1,nzy zyd(i) = dble(zy(i)) enddo do i=1,nl zld(i) = dble(zl(i)) enddo call interhuntdp ( tvtbs,zyd,nzy, v626t1,zld,nl, 1 ) do i=1,nzy con(i) = dble( co2y(i) * imr(isot) ) correc = 2.d0 * dexp( -ee*dble(elow(isot,2))/tvtbs(i) ) con(i) = con(i) * ( 1.d0 - correc ) mr(i) = dble(co2y(i)/nty(i)) end do if ( con(nzy) .le. 0.0d0 ) then ierr = 53 varerr = con(nzy) return elseif ( con(nzy-1) .le. con(nzy) ) then write (*,*) ' WARNING in MZTVC121sub ' write (*,*) ' [CO2] grows with height at CurtisMatrix top.' write (*,*) ' [CO2] @ top = ', con(nzy) coninf = dble( con(nzy) ) else coninf = dble( con(nzy) / log( con(nzy-1) / con(nzy) ) ) endif call mztf_correccion ( coninf, con, ib ) ccc call gethist_03 ( ib ) c c tau(1,ir) c call initial iaquiHIST = nhist/2 in=1 tau(in,1) = 1.d0 call initial iaquiZ = 2 call intzhunt ( iaquiZ, zl(in), c1,p1,mr1,t1, con) do kr=1,nbox ta(kr) = t1 end do call interstrhunt (iaquiHIST, st1,t1,ka,ta) do kr=1,nbox c1box(kr) = c1 * ka(kr) * deltazdbl end do c1 = c1 * st1 * deltazdbl ! Check interpolation errors : if (c1.le.0.0d0) then ierr=55 varerr=c1 return elseif (p1.le.0.0d0) then ierr=56 varerr=p1 return elseif (mr1.le.0.0d0) then ierr=57 varerr=mr1 return elseif (t1.le.0.0d0) then ierr=58 varerr=t1 return elseif (st1.le.0.0d0) then ierr=59 varerr=st1 return endif ! do 2 ir=2,nl call intzhunt (iaquiZ, zl(ir), c2,p2,mr2,t2, con) do kr=1,nbox ta(kr) = t2 end do call interstrhunt (iaquiHIST, st2,t2,ka,ta) do kr=1,nbox c2box(kr) = c2 * ka(kr) * deltazdbl end do c2 = c2 * st2 * deltazdbl aa = aa + ( p1*mr1*(c1*ff) + p2*mr2*(c2*ff)) / 2.d0 cc = cc + ( c1 + c2 ) / 2.d0 dd = dd + ( t1*c1 + t2*c2 ) / 2.d0 do kr=1,nbox ccbox(kr) = ccbox(kr) + ( c1box(kr) + c2box(kr) ) /2.d0 ddbox(kr) = ddbox(kr) + $ ( t1*c1box(kr) + t2*c2box(kr) ) / 2.d0 end do mr1=mr2 t1=t2 c1=c2 p1=p2 do kr=1,nbox c1box(kr) = c2box(kr) end do pp = aa / (cc * ff) ts = dd/cc do kr=1,nbox ta(kr) = ddbox(kr) / ccbox(kr) end do call interstrhunt(iaquiHIST, st,ts,ka,ta) call intershphunt(iaquiHIST, alsa,alda,ta) eqw=0.0d0 do kr=1,nbox yy = ccbox(kr) * beta w = we_clean ( yy, pp, alsa(kr),alda(kr) ) eqw = eqw + no(kr)*w end do argumento = eqw / deltanudbl tau(in,ir) = dexp( - argumento ) 2 continue c c c do in=nl,2,-1 tau(in,1) = tau(1,in) end do c vc(1) = 0.0d0 vc(nl) = 0.0d0 do in=2,nl-1 vc(in) = pideltanu /( 2.d5*deltazdbl ) * @ ( tau(in-1,1) - tau(in+1,1) ) if (vc(in) .lt. 0.0d0) vc(in) = vc(in-1) end do c c Tracking potential numerical errors c minvc = 1.d6 maxtau = tau(nl,1) do in=2,nl-1 minvc = min( minvc, vc(in) ) maxtau = max( maxtau, tau(in,1) ) end do if (maxtau .gt. 1.0d0) then ierr = 52 varerr = maxtau return else if (minvc .lt. 0.0d0) then ierr = 51 varerr = minvc return endif c end return end