Context Navigation

euvheat.F90 @ 3556

Last change on this file since 3556 was 2836, checked in by abierjon, 2 years ago

VENUS GCM:

INCLUDING THE IONOSPHERE CODE IN VENUS GCM

ATTENTION: INCREASED MEMORY DEMAND

NEEDS AT LEAST 135 GB of allocated memory

==============================================================
===> LIST OF APPENDED FILES AND INTERNAL ADDITIONS <==========
==============================================================

NEW MODEL SPECIES

deftank/traceur-chemistry-IONOSPHERE.def

Neutrals: 4 Species: N, NO, NO2, N(2D)

Ions: 15 species:

CO2+, CO+, O+, O2+, H+,

N2+, H2O+, OH+, C+, HCO+,

H3O+, HCO2+, N+, NO+, elec

FROM 36 to 55 chemical species

NEW KEYWORD OF PHYSIQ.DEF

deftank/physiq-96x96x90-chemistry-IONOSPHERE.def

ok_ionchem: keyword supposed to activate ion chemistry.

(be careful that n, no, no2, n2d and the ion species are in the deftank/traceur-chemistry-IONOSPHERE.def)

ok_jonline: keyword supposed to activate the online photochemistry

(be careful that n, no, no2 and n2d are in the traceur-chemistry-IONOSPHERE.def)

==============================================================
===> LIST OF MODIFIED PROGRAMS <=========================
==============================================================

nonoro_gwd_ran_mod.F90

Change EPFLUXMAX value from 5.E-3 to 1.E-3

photochemistry_venus.F90 (krates; photolysis_online; indices;)

Import of keywords: ok_ionchem, tuneupperatm & ok_jonline
addition of ion species in order
Forcing electroneutrality
Update of the reactions a001 and a002 with taking into account the other species
Change of formula for a002 with the formulation of Baulch et al., 1976 (confirmed by Smith and Robertson, 2008)

photolysis_mod.F90

Modification of the rdsolarflux subroutine to include interpolation with Atlas1 and Atlas3 in connection with E10.7

concentration2.F90

Added chemical species n2d, no, no2 and n in the conductivity calculation.

The ions have been excluded because their sum is 10^{5 times less dense than the neutrals and

their thermal conductivity is unknown}

iono_h.F90

Addition of the phdisrate routine
replace the electronic temperature of Mars by that of

origin = 1: Theis et al. 1980 (Venus) with bilinear interpolation altitude/cos(SZA)
origin = 2: Theis et al. 1984 (Venus) with the formula of the electronic temperature at high solar activity

addition of an ion temperature model based on VIRA

cleshphys.h

added ok_ionchem & ok_jonline in COMMON/clesphys_l/

conf_phys.f90

add ok_ionchem & ok_jonline as parameters to read from physiq.def file set to .false. by default

chemparam_mod.F90

Add species in M_tr and corresponding i_X. Set all i_X to zero before reading traceur-chemistry-IONOSPHERE.def
Added Type_tr table to differentiate species: 1 == neutral, 2 == ION, 3 == liquid, 10 == others

euvheat.F90; hrtherm.F; jthermcalc_e107.F; param_read_e107.F

Normalization with Mars

A.M

File size: 14.3 KB

Rev	Line
[1442]	1	SUBROUTINE euvheat(nlon, nlev,nqmx, pt,pplev,pplay,zzlay, &
[2464]	2	mu0,ptimestep,ptime,pq, pdq, pdteuv)
[1310]	3
[1442]	4	use chemparam_mod
[2464]	5	use dimphy
[1310]	6	use conc, only: rnew, cpnew
[1442]	7
[1310]	8	IMPLICIT NONE
	9	!=======================================================================
	10	! subject:
	11	! --------
	12	! Computing heating rate due to EUV absorption
	13	!
	14	! author: MAC 2002
	15	! ------
	16	!
	17	! input:
	18	! -----
	19	! mu0(klon)
	20	! pplay(ngrid,nlayer) pressure at middle of layers (Pa)
	21	! zzlay ! altitude at the middle of the layers (m)
	22	!
	23	! output:
	24	! -------
	25	!
	26	! pdteuv(ngrid,nlayer) Heating rate (K/s)
	27	!
	28	!=======================================================================
	29	!
	30	! 0. Declarations :
	31	! ------------------
	32	!
	33	#include "YOMCST.h"
	34	#include "clesphys.h"
	35	#include "mmol.h"
	36	!-----------------------------------------------------------------------
	37	! Input/Output
	38	! ------------
	39
	40
	41	integer :: nlon
	42	integer :: nlev
[1442]	43	integer :: nqmx
[1310]	44
	45	real :: pt(nlon,nlev)
	46	real :: pplev(nlon,nlev+1)
	47	real :: pplay(nlon,nlev)
	48	real :: zzlay(nlon,nlev)
	49	real :: mu0(nlon)
	50
	51	real :: ptimestep,ptime
[1442]	52	real :: pq(nlon,nlev,nqmx)
	53	real :: pdq(nlon,nlev,nqmx)
[1310]	54	real :: pdteuv(nlon,nlev)
	55	!
	56	! Local variables :
	57	! -----------------
	58
[1442]	59	integer,save :: nespeuv=17 ! Number of species considered (11, 12 or 17 (with nitrogen))
	60	integer,save :: nspeuv_vgcm ! Number of species considered currently considered into VGCM
	61
	62
[1310]	63	INTEGER :: l,ig,n
[1442]	64	integer,save :: euvmod = 0 !0: 4 (main) species 1: O3 chemistry 2: N chemistry, 3: C/O/H
	65	real, allocatable, save :: rm(:,:) ! number density (cm-3)
	66	real :: zq(nlon,nlev,nqmx) ! local updated tracer quantity
[1310]	67	real :: zt(nlon,nlev) ! local updated atmospheric temperature
	68	real :: zlocal(nlev)
	69	real :: zenit
	70	real :: jtot(nlev)
	71	real :: dens ! Total number density (cm-3)
	72	real :: tx(nlev)
	73
	74	! tracer indexes for the EUV heating:
	75	!!! ATTENTION. These values have to be identical to those in hrterm.F90
	76	!!! If the values are changed there, the same has to be done here !!!
	77
[2836]	78	! integer,parameter :: ix_co2=1
	79	! integer,parameter :: ix_o=3
	80	! integer,parameter :: ix_co=4
	81	! integer,parameter :: ix_n2=13
[1310]	82
[2836]	83	integer,parameter :: ix_co2 = 1
	84	integer,parameter :: ix_co = 2
	85	integer,parameter :: ix_o = 3
	86	integer,parameter :: ix_o1d = 4
	87	integer,parameter :: ix_o2 = 5
	88	integer,parameter :: ix_o3 = 6
	89	integer,parameter :: ix_h = 7
	90	integer,parameter :: ix_h2 = 8
	91	integer,parameter :: ix_oh = 9
	92	integer,parameter :: ix_ho2 = 10
	93	integer,parameter :: ix_h2o2 = 11
	94	integer,parameter :: ix_h2o = 12
	95	integer,parameter :: ix_n = 13
	96	integer,parameter :: ix_n2d = 14
	97	integer,parameter :: ix_no = 15
	98	integer,parameter :: ix_no2 = 16
	99	integer,parameter :: ix_n2 = 17
[1310]	100
[1442]	101	! Tracer indexes in the GCM:
	102	integer,save :: g_co2=0
	103	integer,save :: g_o=0
[2836]	104	integer,save :: g_o2=0
	105	integer,save :: g_h2=0
	106	integer,save :: g_h2o2=0
	107	integer,save :: g_h2o=0
	108	integer,save :: g_o3=0
	109	integer,save :: g_n2=0
	110	integer,save :: g_n=0
	111	integer,save :: g_no=0
[1442]	112	integer,save :: g_co=0
[2836]	113	integer,save :: g_h=0
	114	integer,save :: g_no2=0
	115	integer,save :: g_oh=0
	116	integer,save :: g_ho2=0
	117	integer,save :: g_o1d=0
	118	integer,save :: g_n2d=0
[1310]	119
	120	logical,save :: firstcall=.true.
	121
	122	! Initializations and sanity checks:
	123
	124
[1442]	125	if (firstcall) then
	126	nspeuv_vgcm=0
	127	! ! identify the indexes of the tracers we'll need
	128	g_co2=i_co2
	129	if (g_co2.eq.0) then
	130	write(,) "euvheat: Error; no CO2 tracer !!!"
	131	write(,) "CO2 is always needed if calleuv=.true."
	132	stop
	133	else
	134	nspeuv_vgcm=nspeuv_vgcm+1
	135	endif
	136	g_o=i_o
	137	if (g_o.eq.0) then
	138	write(,) "euvheat: Error; no O tracer !!!"
[1310]	139	! write(,) "O is always needed if calleuv=.true."
[1442]	140	stop
	141	else
[2836]	142	nspeuv_vgcm=nspeuv_vgcm+1
[1442]	143	endif
	144	g_co=i_co
	145	if (g_co.eq.0) then
	146	write(,) "euvheat: Error; no CO tracer !!!"
	147	! write(,) "CO is always needed if calleuv=.true."
	148	stop
	149	else
	150	nspeuv_vgcm=nspeuv_vgcm+1
	151	endif
	152	! n2
	153	g_n2=i_n2
[2836]	154	if (g_n2.eq.0) then
	155	write(,) "euvheat: Error; no N2 tracer !!!"
	156	! write(,) "N2 needed if NO is in traceur.def"
	157	stop
	158	else
	159	nspeuv_vgcm=nspeuv_vgcm+1
	160	endif
	161	g_o2=i_o2
	162	if (g_o2.eq.0) then
	163	write(,) "euvheat: Error; no O2 tracer !!!"
[1310]	164	! write(,) "O2 is always needed if calleuv=.true."
[2836]	165	stop
	166	else
	167	nspeuv_vgcm=nspeuv_vgcm+1
	168	endif
	169	g_h2=i_h2
	170	if (g_h2.eq.0) then
	171	write(,) "euvheat: Error; no H2 tracer !!!"
[1310]	172	! write(,) "H2 is always needed if calleuv=.true."
[2836]	173	stop
	174	else
	175	nspeuv_vgcm=nspeuv_vgcm+1
	176	endif
	177	g_oh=i_oh
	178	if (g_oh.eq.0) then
	179	write(,) "euvheat: Error; no OH tracer !!!"
[1310]	180	! write(,) "OH must always be present if thermochem=T"
[2836]	181	stop
	182	else
	183	nspeuv_vgcm=nspeuv_vgcm+1
	184	endif
	185	g_ho2=i_ho2
	186	if (g_ho2.eq.0) then
	187	write(,) "euvheat: Error; no HO2 tracer !!!"
[1310]	188	! write(,) "HO2 must always be present if thermochem=T"
[2836]	189	stop
	190	else
	191	nspeuv_vgcm=nspeuv_vgcm+1
	192	endif
	193	g_h2o2=i_h2o2
	194	if (g_h2o2.eq.0) then
	195	write(,) "euvheat: Error; no H2O2 tracer !!!"
[1310]	196	! write(,) "H2O2 is always needed if calleuv=.true."
[2836]	197	stop
	198	else
	199	nspeuv_vgcm=nspeuv_vgcm+1
	200	endif
	201	g_h2o=i_h2o
	202	if (g_h2o.eq.0) then
	203	write(,) "euvheat: Error; no water vapor tracer !!!"
[1310]	204	! write(,) "H2O is always needed if calleuv=.true."
[2836]	205	stop
	206	else
	207	nspeuv_vgcm=nspeuv_vgcm+1
	208	endif
	209	g_o1d=i_o1d
	210	if (g_o1d.eq.0) then
	211	write(,) "euvheat: Error; no O1D tracer !!!"
[1310]	212	! write(,) "O1D must always be present if thermochem=T"
[2836]	213	stop
	214	else
	215	nspeuv_vgcm=nspeuv_vgcm+1
	216	endif
	217	g_h=i_h
	218	if (g_h.eq.0) then
	219	write(,) "euvheat: Error; no H tracer !!!"
[1310]	220	! write(,) "H is always needed if calleuv=.true."
[2836]	221	stop
	222	else
	223	nspeuv_vgcm=nspeuv_vgcm+1
	224	endif
[1310]	225
[2836]	226	! euvmod = 1 !Default: C/O/H chemistry
[1310]	227	! !Check if O3 is present
[2836]	228	g_o3=i_o3
	229	if (g_o3.eq.0) then
	230	write(,) "euvheat: Error; no O3 tracer !!!"
	231	write(,) "O3 must be present if calleuv=.true."
	232	stop
	233	else
	234	nspeuv_vgcm=nspeuv_vgcm+1
	235	euvmod=1
	236	endif
[1310]	237
	238	!Nitrogen species
	239	!NO is used to determine if N chemistry is wanted
	240	!euvmod=2 -> N chemistry
[2836]	241	g_no=i_no
	242	if (g_no.eq.0) then
	243	write(,) "euvheat: no NO tracer"
	244	write(,) "No N species in UV heating"
	245	else if(g_no.ne.0) then
	246	nspeuv_vgcm=nspeuv_vgcm+1
	247	euvmod=2
	248	endif
[1310]	249	! N
[2836]	250	g_n=i_n
	251	if(euvmod == 2) then
	252	if (g_n.eq.0) then
	253	write(,) "euvheat: Error; no N tracer !!!"
	254	write(,) "N needed if NO is in traceur.def"
	255	stop
	256	else if(g_n.ne.0) then
	257	nspeuv_vgcm=nspeuv_vgcm+1
	258	endif
	259	else
	260	if(g_n /= 0) then
	261	write(,) "euvheat: Error: N present, but NO not!!!"
	262	write(,) "Both must be in traceur.def"
	263	stop
	264	endif
	265	endif !Of if(euvmod==2)
	266	!NO2
	267	g_no2=i_no2
	268	if(euvmod == 2) then
	269	if (g_no2.eq.0) then
	270	write(,) "euvheat: Error; no NO2 tracer !!!"
	271	write(,) "NO2 needed if NO is in traceur.def"
	272	stop
	273	else if(g_no2.ne.0) then
	274	nspeuv_vgcm=nspeuv_vgcm+1
	275	endif
	276	else
	277	if(g_no2 /= 0) then
	278	write(,) "euvheat: Error: NO2 present, but NO not!!!"
	279	write(,) "Both must be in traceur.def"
	280	stop
	281	endif
	282	endif !Of if(euvmod==2)
[1310]	283	!N2D
[2836]	284	g_n2d=i_n2d
	285	if(euvmod == 2) then
	286	if (g_n2d.eq.0) then
	287	write(,) "euvheat: Error; no N2D tracer !!!"
	288	write(,) "N2D needed if NO is in traceur.def"
	289	stop
	290	else
	291	nspeuv_vgcm=nspeuv_vgcm+1
	292	endif
	293	else
	294	if(g_n2d /= 0) then
	295	write(,) "euvheat: Error: N2D present, but NO not!!!"
	296	write(,) "Both must be in traceur.def"
	297	stop
	298	endif
	299	endif !Of if(euvmod==2)
[1310]	300
	301	!Check if nespeuv is appropriate for the value of euvmod
	302	! select case(euvmod)
	303	! case(0)
	304	! if(nespeuv.ne.11) then
	305	! write(,)'euvheat: Wrong number of tracers!'
	306	! stop
	307	! else
	308	! write(,)'euvheat: Computing absorption by',nespeuv, &
	309	! ' species'
	310	! endif
	311	! case(1)
	312	! if(nespeuv.ne.12) then
	313	! write(,)'euvheat: Wrong number of tracers!',nespeuv
	314	! stop
	315	! else
	316	! write(,)'euvheat: Computing absorption by',nespeuv, &
	317	! ' species'
	318	! endif
	319	! case(2)
	320	! if(nespeuv.ne.17) then
	321	! write(,)'euvheat: Wrong number of tracers!'
	322	! stop
	323	! else
	324	! write(,)'euvheat: Computing absorption by',nespeuv, &
	325	! ' species'
	326	! endif
	327	! end select
[1442]	328
	329
[2836]	330	!Allocate density vector
	331	allocate(rm(nlev,nespeuv))
[1442]	332
[1310]	333	firstcall= .false.
[1442]	334	endif ! of if (firstcall)
[1310]	335
[1442]	336	! write(,), "CHECK n species currently used into VGCM", nspeuv_vgcm
[1310]	337
	338
[1442]	339	!cccccccccccccccccccccccccccccccccccccccccccccccccccccccc
[1310]	340
[2836]	341	! euvmod selection security
	342	if(euvmod.gt.2.or.euvmod.lt.0) then
	343	write(,)'euvheat: bad value for euvmod. Stop'
	344	stop
	345	endif
	346
[1310]	347	! build local updated values of tracers (if any) and temperature
	348	do l=1,nlev
	349	do ig=1,nlon
[2836]	350	! chemical species
	351	zq(ig,l,g_co2)=pq(ig,l,g_co2) ! CO2
	352	zq(ig,l,g_o2)=pq(ig,l,g_o2) ! O2
	353	zq(ig,l,g_o)=pq(ig,l,g_o) ! O(3P)
	354	zq(ig,l,g_h2)=pq(ig,l,g_h2) ! H2
	355	zq(ig,l,g_h2o2)=pq(ig,l,g_h2o2) ! H2O2
	356	zq(ig,l,g_h2o)=pq(ig,l,g_h2o) ! H2O
	357	zq(ig,l,g_n2)=pq(ig,l,g_n2) ! N2
	358	zq(ig,l,g_co)=pq(ig,l,g_co) ! CO
	359	zq(ig,l,g_h)=pq(ig,l,g_h) ! H
[1442]	360
[2836]	361	!Only if O3, N or ion chemistry requested
	362	if(euvmod.ge.1) then
	363	zq(ig,l,g_o3)=pq(ig,l,g_o3) ! 03
	364	endif
	365	!Only if N or ion chemistry requested
	366	if(euvmod.ge.2) then
	367	zq(ig,l,g_n)=pq(ig,l,g_n) ! N
	368	zq(ig,l,g_no)=pq(ig,l,g_no) ! NO
	369	zq(ig,l,g_no2)=pq(ig,l,g_no2) ! NO2
	370	endif
	371	! atmospheric temperature
	372	zt(ig,l)=pt(ig,l)
[1442]	373	! write(,), "CHECK update densities L332 euv", zq(ig,l,g_co2)
[1310]	374	enddo
	375	enddo
	376
[2836]	377	!Solar flux calculation
[1310]	378	do ig=1,nlon
	379	zenit=acos(mu0(ig))*180./acos(-1.) !convers from rad to deg
	380
[2836]	381	do l=1,nlev
	382	!Conversion to number density
	383	!!! use R specific = R/MolarMass
[1442]	384	dens=pplay(ig,l)/(rnew(ig,l)*zt(ig,l)) / 1.66e-21 ! [g mol-1] [cm-3]
[1310]	385
[2836]	386	rm(l,ix_co2) = zq(ig,l,g_co2) * dens / M_tr(g_co2) ! [cm-3]
	387	rm(l,ix_o2) = zq(ig,l,g_o2) * dens / M_tr(g_o2)
[1442]	388	rm(l,ix_o) = zq(ig,l,g_o) * dens / M_tr(g_o)
[2836]	389	rm(l,ix_h2) = zq(ig,l,g_h2) * dens / M_tr(g_h2)
	390	rm(l,ix_h2o) = zq(ig,l,g_h2o) * dens / M_tr(g_h2o)
	391	rm(l,ix_h2o2) = zq(ig,l,g_h2o2)* dens / M_tr(g_h2o2)
	392	rm(l,ix_co) = zq(ig,l,g_co) * dens / M_tr(g_co)
	393	rm(l,ix_n2) = zq(ig,l,g_n2) * dens / M_tr(g_n2)
	394	rm(l,ix_h) = zq(ig,l,g_h) * dens / M_tr(g_h)
[1310]	395
[2836]	396	!Only if O3, N or ion chemistry requested
	397	if(euvmod.ge.1) then
	398	rm(l,ix_o3) = zq(ig,l,g_o3) * dens / M_tr(g_o3)
	399	endif
	400	!Only if N or ion chemistry requested
	401	if(euvmod.ge.2) then
	402	rm(l,ix_n) = zq(ig,l,g_n) * dens / M_tr(g_n)
	403	rm(l,ix_no) = zq(ig,l,g_no) * dens / M_tr(g_no)
	404	rm(l,ix_no2) = zq(ig,l,g_no2) * dens / M_tr(g_no2)
	405	endif
	406
[1442]	407	! write(,), "CHECK n density", l, rm(l,ix_co2)
[1310]	408	enddo
	409
	410	! zlocal(1)=-log(pplay(ig,1)/pplev(ig,1))
	411	! & Rnew(ig,1)zt(ig,1)/g
	412	zlocal(1)=zzlay(ig,1)
	413	zlocal(1)=zlocal(1)/1000. ! conversion m ---> km
	414	tx(1)=zt(ig,1)
	415
	416	do l=2,nlev
	417	tx(l)=zt(ig,l)
	418	zlocal(l)=zzlay(ig,l)/1000.
	419	enddo
	420
	421	!Routine to calculate the UV heating
[2464]	422	call hrtherm (ig,euvmod,rm,nespeuv,tx,zlocal,zenit,jtot)
[1310]	423
	424
[2836]	425	!euveff: UV heating efficiency. Following Fox et al. ASR 1996
	426	!should vary between 19% and 23%. Lower values
	427	!(i.e. 16%) can be used to compensate
	428	!underestimation
	429	!of 15-um cooling (see Forget et al. JGR 2009 and
	430	!Gonzalez-Galindo et al. JGR 2009) for details
	431
[1310]	432	!Calculates the UV heating from the total photoabsorption coefficient
	433	do l=1,nlev
	434	! jtot conversion from erg/(scm3) ---> J/(sm3)
	435	pdteuv(ig,l)=euveff*jtot(l)/10. &
	436	/(cpnew(ig,l)pplay(ig,l)/(rnew(ig,l)zt(ig,l)))
	437
	438	enddo
	439	enddo ! of do ig=1,nlon
[1442]	440
[1310]	441	!Deallocations
[1442]	442	!deallocate(rm)
[1310]	443
	444	return
	445	end

Note: See TracBrowser for help on using the repository browser.

Download in other formats:

Original Format