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emistrns.f.backup
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subroutine emistrns(igrd)
c
c-----CAMx v4.02 030709
c
c EMISTRNS performs the following tasks for one grid:
c 1. Determines mass-conserving vertical velocity parameters
c 2. Updates concentrations due to emissions
c 3. Grows PiG puffs and adds dumped mass to grid
c 4. Performs 3-D transport
c 5. Performs wet scavenging
c 6. Updates met fields to current time step
c 7. Performs 3-D diffusion
c
c Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003
c ENVIRON International Corporation
c
c Modifications:
c 01/30/02 --gwilson-- Added code for RTRAC probing tool
c
c Input arguments:
c igrd grid index
c
c Output arguments:
c none
c
c Routines called:
c ZRATES
c EMISS
c PIGDRIVE
c XYADVEC
c ZADVEC
c WETDEP
c UPDTMET
c DIFFUS
c
c Called by:
c CAMx
c NESTING
c
include 'camx.prm'
include 'camx.com'
include 'camxfld.com'
include 'chmstry.com'
include 'grid.com'
include 'flags.com'
include 'filunit.com'
include "ptemiss.com"
include "bndary.com"
c
c======================== Process Analysis Begin ====================================
c
include "procan.com"
c
c========================= Process Analysis End =====================================
c
c
c======================== Source Apportion Begin =======================
c
include 'tracer.com'
include 'rtracchm.com'
c
real*8 ardum(MXTRSP), ptdum(MXTRSP), fluxdum(MXTRSP*11)
real depdum(MXCOLA,MXROWA,3*MXSPEC)
data ardum /MXTRSP*0.0/
data ptdum /MXTRSP*0.0/
data fluxdum /MXTRSP*0.0,MXTRSP*0.0,MXTRSP*0.0,MXTRSP*0.0,
& MXTRSP*0.0,MXTRSP*0.0,MXTRSP*0.0,MXTRSP*0.0,
& MXTRSP*0.0,MXTRSP*0.0,MXTRSP*0.0/
c
c========================= Source Apportion End ========================
c
c-----Entry point
c
write(*,'(a,i3,a,f7.1)') 'Processing grid:', igrd,
& ' Timestep: ',deltat(igrd)
write(iout,'(a,i3,a,f7.1)') 'Processing grid:', igrd,
& ' Timestep: ',deltat(igrd)
c
c-----Determine mass-conserving vertical velocity parameters
c
write(*,'(a20,$)') 'zrates ......'
write(iout,'(a20,$)') 'zrates ......'
call zrates(igrd,xyordr,ncol(igrd),nrow(igrd),nlay(igrd),
& nadv(1,igrd),deltat(igrd),deltax(1,igrd),
& deltay(igrd),depth(iptr3d(igrd)),
& phpt(iptr3d(igrd)),pppt(iptr3d(igrd)),
& ptpt(iptr3d(igrd)),windu(iptr3d(igrd)),
& windv(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),mapscl(iptr2d(igrd)),dilut,entrn)
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
c
c-----Inject emissions
c
write(*,'(a20,$)') 'emiss ......'
write(iout,'(a20,$)') 'emiss ......'
tcpu = dtime(tarray2)
call emiss(igrd,kno,kno2,nspec,narspc,nptspc,larmap(1,igrd),
& lptmap,nosrc(igrd),idsrc(1,igrd),isrc(1,igrd),
& jsrc(1,igrd),ncol(igrd),nrow(igrd),nlay(igrd),
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& mapscl(iptr2d(igrd)),
& height(iptr3d(igrd)),depth(iptr3d(igrd)),
& windu(iptr3d(igrd)),windv(iptr3d(igrd)),
& tempk(iptr3d(igrd)),press(iptr3d(igrd)),
& aremis(iptrem(igrd)),
& ptemis,
& armass(1,igrd),ptmass(1,igrd),
& conc(iptr4d(igrd)),ipacl_3d(iptr3d(igrd)) )
c
c======================== Source Apportion Begin =======================
c
c --- call routine with tracer species arrays, send dummy
c arguemnts for the total mass arrays ---
c
c
if( ltrace .OR. lddm ) then
call emiss(igrd,kno,kno2,ntotsp,ntotsp,ntotsp,lsamap,lsamap,
& nosrc(igrd),idsrc(1,igrd),isrc(1,igrd),jsrc(1,igrd),
& ncol(igrd),nrow(igrd),nlay(igrd),deltat(igrd),
& deltax(1,igrd),deltay(igrd),mapscl(iptr2d(igrd)),
& height(iptr3d(igrd)),
& depth(iptr3d(igrd)),windu(iptr3d(igrd)),
& windv(iptr3d(igrd)),
& tempk(iptr3d(igrd)),press(iptr3d(igrd)),
& saemis(ipsa2d(igrd)),
& sapnts,ardum,ptdum,
& ptconc(ipsa3d(igrd)),ipacl_3d(iptr3d(igrd)) )
endif
c
c========================= Source Apportion End ========================
c
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
c
c-----Perform 2-D transport
c
call xyadvec(igrd,xyordr,ncol(igrd),nrow(igrd),nlay(igrd),nspec,
& MAX(1,ntotsp),nadv(1,igrd),
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& windu(iptr3d(igrd)),
& windv(iptr3d(igrd)),depth(iptr3d(igrd)),
& mapscl(iptr2d(igrd)),conc(iptr4d(igrd)),
& fluxes(1,igrd),ptconc(MAX(1,ipsa3d(igrd))),
& tarray2,ipsa3d(igrd),ipacl_3d(iptr3d(igrd)) )
call flush(6)
call flush(iout)
c
c-----Perform vertical transport
c
call zadvec(.FALSE.,igrd,ncol(igrd),nrow(igrd),nlay(igrd),nspec,
& MAX(1,ntotsp),deltat(igrd),deltax(1,igrd),
& deltay(igrd),
& densfac,idfin(iptr2d(igrd)),caloft,
& depth(iptr3d(igrd)),entrn,dilut,
& tempk(iptr3d(igrd)),press(iptr3d(igrd)),
& spname,conc(iptr4d(igrd)),
& fluxes(1,igrd),ptloft,ptconc(MAX(ipsa3d(igrd),1)),
& tarray2,ipacl_2d(iptr2d(igrd)),
& ipacl_3d(iptr3d(igrd)) )
call flush(6)
call flush(iout)
c
c
c======================== Source Apportion Begin =======================
c
if( ltrace ) then
c
if( tectyp .EQ. RTRAC ) then
call xyadvec(igrd,xyordr,ncol(igrd),nrow(igrd),nlay(igrd),
& ntotsp,1,nadv(1,igrd),deltat(igrd),deltax(1,igrd),
& deltay(igrd),windu(iptr3d(igrd)),windv(iptr3d(igrd)),
& depth(iptr3d(igrd)),mapscl(iptr2d(igrd)),
& ptconc(ipsa3d(igrd)),fluxdum,ptconc(1),
& tarray2,ipsa3d(igrd),ipacl_3d(iptr3d(igrd)) )
endif
c
c----- call routine to advect the timing tracers horizontally ---
c
if( npttim .GT. 0 ) call timadv(igrd,xyordr,ncol(igrd),
& nrow(igrd),nlay(igrd),nspec,
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& windu(iptr3d(igrd)),
& windv(iptr3d(igrd)),depth(iptr3d(igrd)),
& mapscl(iptr2d(igrd)),ptconc(ipsa3d(igrd)))
c
c --- call routine with tracer species arrays, send dummy
c arguments for the total mass arrays ---
c
call zadvec(.TRUE.,igrd,ncol(igrd),nrow(igrd),nlay(igrd),
& ntotsp,1,deltat(igrd),deltax(1,igrd),deltay(igrd),
& densfac,idfin(iptr2d(igrd)),ptloft,
& depth(iptr3d(igrd)),entrn,dilut,
& tempk(iptr3d(igrd)),press(iptr3d(igrd)),
& ptname, ptconc(ipsa3d(igrd)),
& fluxdum,ptloft,ptconc(1),
& tarray2,ipacl_2d(iptr2d(igrd)),
& ipacl_3d(iptr3d(igrd)) )
endif
c
c========================= Source Apportion End ========================
c
c-----Perform wet scavenging
c
if (lwet) then
write(*,'(a20,$)') 'wetdep ......'
write(iout,'(a20,$)') 'wetdep ......'
call wetdep(igrd,ncol(igrd),nrow(igrd),nlay(igrd),nspec,
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& depth(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),cwc(iptr3d(igrd)),
& pwc(iptr3d(igrd)),densfac,idfin(iptr2d(igrd)),
& conc(iptr4d(igrd)),fluxes(1,igrd),
& depfld(iptrdp(igrd)),dtout,ipacl_3d(iptr3d(igrd)) )
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
c
c======================== Source Apportion Begin =======================
c
if( ltrace .AND. tectyp .EQ. RTRAC ) then
call wetdeprt(igrd,ncol(igrd),nrow(igrd),nlay(igrd),nrtrac,
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& depth(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),cwc(iptr3d(igrd)),
& pwc(iptr3d(igrd)),densfac,idfin(iptr2d(igrd)),
& ptconc(ipsa3d(igrd)))
endif
c
c======================== Source Apportion End =======================
c
endif
c
c-----Update vertical grid and environmental fields for this timestep
c
write(*,'(a20,$)') 'updtmet ......'
write(iout,'(a20,$)') 'updtmet ......'
call updtmet(igrd,ncol(igrd),nrow(igrd),nlay(igrd),
& ngas,densfac,deltat(igrd),phpt(iptr3d(igrd)),
& height(iptr3d(igrd)),depth(iptr3d(igrd)),
& pppt(iptr3d(igrd)),press(iptr3d(igrd)),
& pupt(iptr3d(igrd)),windu(iptr3d(igrd)),
& pvpt(iptr3d(igrd)),
& windv(iptr3d(igrd)),pspt(iptr2d(igrd)),
& tsurf(iptr2d(igrd)),
& ptpt(iptr3d(igrd)),tempk(iptr3d(igrd)),
& conc(iptr4d(igrd)) )
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
c
c-----Perform 3-D Diffusion
c
call diffus(igrd,ncol(igrd),nrow(igrd),nlay(igrd),nspec,
& MAX(1,ntotsp),deltat(igrd),deltax(1,igrd),deltay(igrd),
& idfin(iptr2d(igrd)),vdep(iptrem(igrd)),
& rkx(iptr3d(igrd)),rky(iptr3d(igrd)),
& rkv(iptr3d(igrd)),depth(iptr3d(igrd)),
& tempk(iptr3d(igrd)),press(iptr3d(igrd)),
& mapscl(iptr2d(igrd)),conc(iptr4d(igrd)),
& fluxes(1,igrd),depfld(iptrdp(igrd)),
& ptconc(MAX(1,ipsa3d(igrd))),tarray2,
& ' z diffusion ......',' x/y diff ......',
& ipacl_2d(iptr2d(igrd)),ipacl_3d(iptr3d(igrd)) )
call flush(6)
call flush(iout)
c
c======================== Source Apportion Begin =======================
c
if( ltrace ) then
c
c --- call routine to calculate the depostion velocities
c for the tracer species ---
c
call filvdsa(ncol(igrd),nrow(igrd),nlay(igrd),nspec,ntotsp,
& conc(iptr4d(igrd)),vdep(iptrem(igrd)),ptvdep,
& vdeprt(ipsa2d(igrd)))
c
c --- call routine with tracer species arrays, send dummy
c arguemnts for the total mass arrays ---
c
call diffus(igrd,ncol(igrd),nrow(igrd),nlay(igrd),ntotsp,1,
& deltat(igrd),deltax(1,igrd),deltay(igrd),
& idfin(iptr2d(igrd)),ptvdep,rkx(iptr3d(igrd)),
& rky(iptr3d(igrd)),rkv(iptr3d(igrd)),
& depth(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),mapscl(iptr2d(igrd)),
& ptconc(ipsa3d(igrd)),fluxdum,depdum,ptconc(1),
& tarray2,
& ' SA z diffus ......',' SA x/y diff ......',
& ipacl_2d(iptr2d(igrd)),ipacl_3d(iptr3d(igrd)) )
endif
c
c========================= Source Apportion End ========================
c
c
c-----Perform PiG evolution
c
if( ipigflg .EQ. GRESPIG ) then
write(*,'(a20,$)') 'pigdrive (GREASD) ......'
write(iout,'(a20,$)') 'pigdrive (GREASD) ......'
call flush(6)
call gresdriv(igrd,iptr2d(igrd),ncol(igrd),nrow(igrd),
& nlay(igrd),itzon,deltat(igrd),
& deltax(1,igrd),deltay(igrd),mapscl(iptr2d(igrd)),
& height(iptr3d(igrd)),
& rkv(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),water(iptr3d(igrd)),
& windu(iptr3d(igrd)),windv(iptr3d(igrd)),
& cldtrns(iptr3d(igrd)),fcloud(iptr3d(igrd)),
& cellat(iptr2d(igrd)),cellon(iptr2d(igrd)),
& conc(iptr4d(igrd)),pigdump(1,igrd),ipsa3d(igrd),
& ipacl_3d(iptr3d(igrd)) )
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
else if( ipigflg .EQ. IRONPIG ) then
write(*,'(a20,$)') 'pigdrive (IRON) ......'
write(iout,'(a20,$)') 'pigdrive (IRON) ......'
call irondriv(igrd,iptr2d(igrd),ncol(igrd),nrow(igrd),
& nlay(igrd),lradm,itzon,deltat(igrd),
& deltax(1,igrd),deltay(igrd),mapscl(iptr2d(igrd)),
& height(iptr3d(igrd)),
& rkv(iptr3d(igrd)),tempk(iptr3d(igrd)),
& press(iptr3d(igrd)),water(iptr3d(igrd)),
& windu(iptr3d(igrd)),windv(iptr3d(igrd)),
& cldtrns(iptr3d(igrd)),fcloud(iptr3d(igrd)),
& cellat(iptr2d(igrd)),cellon(iptr2d(igrd)),
& conc(iptr4d(igrd)),cncrad(iptrad(igrd)),
& pigdump(1,igrd))
tcpu = dtime(tarray2)
write(*,'(a,f10.3)') ' CPU = ', tarray2(1)
write(iout,'(a,f10.3)') ' CPU = ', tarray2(1)
call flush(6)
call flush(iout)
endif
c
return
end