Chemistry Working Group: Difference between revisions

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<big><big><strong>Oxidants and Chemistry Working Group</strong></big></big>
All users interested in the GEOS-Chem chemistry scheme and associated processes (photolysis, heterogeneous, deposition) are encouraged to subscribe to the chemistry email list (click on the link in the [[#Contact information|contact information section]] below).
All users interested in the GEOS-Chem chemistry scheme and associated processes (photolysis, heterogeneous, deposition) are encouraged to subscribe to the chemistry email list (click on the link in the [[#Contact information|contact information section]] below).


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!width="300px" bgcolor="#CCCCCC"|Oxidants and Chemistry Working Group Co-Chairs
!width="300px" bgcolor="#CCCCCC"|Oxidants and Chemistry Working Group Co-Chairs
|width="600px"|
|width="600px"|  
*[http://www.york.ac.uk/chemistry/staff/academic/d-g/evansm/ Mat Evans] and
*[http://www.barronh.com Barron Henderson] (GitHub: [https://github.com/barronh @barronh])
*[http://www.barronh.com Barron Henderson]
*[http://hs.umt.edu/luhu/people.php Lu Hu] (GitHub: [https://github.com/luhu0 @luhu0])
*[https://www.jessicahaskinsphd.com/ Jessica Haskins] (Github: [https://github.com/jhaskinsPhD jhaskinsPhD])
*[https://www.kelvinbates.com/ Kelvin Bates] (Github: [https://github.com/kelvinhb @kelvinb])


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!width="150px"|Contact Person
!width="150px"|Contact Person
!width="100px"|Date Added
!width="100px"|Date Added
|-
|NIA / LaRC
|Tropospheric ozone over East Asia: Ozonesonde observations and modeling analysis
|[mailto:hyl@nianet.org Hongyu Liu]
|5 May 2015
|-
|University of York
|Iodine chemistry
|[mailto:ts551@york.ac.uk Tomas Sherwen]
|24 June 2015
|-
|University of York
|Low NOx isoprene chemistry
|[mailto:sag527@york.ac.uk Shani Garraway]
|24 June 2015
|-
|University of York
|Impacts of uncertainty in chemical kinetics
|[mailto:bn506@york.ac.uk Ben Newsome]
|24 June 2015
|-
|University of York
|New spin-based formulation of ozone production
|[mailto:pete.edwards@york.ac.uk Pete Edwards]
|24 June 2015
|-
|University of York
|New surface ozone dataset for model evaluation
|[mailto:eric.sofen@york.ac.uk Eric Sofen]
|24 June 2015
|-
|University of York
|Spectral methodology for model evaluation
|[mailto:db876@york.ac.uk Dene Bowdalo]
|24 June 2015
|-
|University of York
|Updates to the kinetics of Criegee chemistry based on new chamber experiments
|[mailto:mat.evans@york.ac.uk Mat Evans]
|24 June 2015
|-
|University of York
|Impact of ClNO2 chemistry on UK marine composition
|[mailto:mat.evans@york.ac.uk Mat Evans]
|24 June 2015
|}


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|NASA LARC
|Scheme for higher PN production from aromatics, MEK, monoterpenes, glycolaldehyde, and 1,3-butadiene
|[mailto:katherine.travis@nasa.gov Katherine R. Travis]
|19 Sep 2023


--[[User:Bmy|Bob Y.]] 15:08, 25 April 2014 (EDT)


== Current GEOS-Chem Chemistry Issues (please add yours!) ==
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|Columbia University
|Automated model reduction isoprene oxidation mechanism
|[mailto:benjamin.yang@columbia.edu Benjamin Yang]<br>
[mailto:danielmw@ldeo.columbia.edu Dan Westervelt]
|12 Sep 2023


=== JPL Released 18th Rate Coefficient Evaluation ===
|-valign="top"
|NOAA CSL
|JPL Kinetic Review Update/C-N balance/stoichiometry update
|[mailto:khbates@ucdavis.edu Kelvin Bates]
|01 Jul 2023


JPL has released its 18th evaluation of chemical rate coefficients for atmospheric studies (Burkholder et al., 2015)." A new page ([[Updates in JPL Publication 15-10]]) is being created to compare rates between GEOS-Chem v10 and JPL Publication 15-10.
|-valign="top"
|University of York
|Nitrate Photolysis
|[mailto:mat.evans@york.ac.ul Mat Evans]<br>
[mailto:matthew.rowlinson@york.ac.ul Matthew Rowlinson]
|08 Jun 2022


J. B. Burkholder, S. P. Sander, J. Abbatt, J. R. Barker, R. E. Huie, C. E. Kolb, M. J. Kurylo, V. L. Orkin, D. M. Wilmouth, and P. H. Wine "Chemical Kinetics and Photochemical Data for Use in Atmospheric Studies, Evaluation No. 18," JPL Publication 15-10, Jet Propulsion Laboratory, Pasadena, 2015 http://jpldataeval.jpl.nasa.gov.
|-valign="top"
|University of York
|Halogen reverse reactions
|[mailto:mat.evans@york.ac.ul Mat Evans]<br>
[mailto:hansen.cao@york.ac.ul Hansen Cao]
|01 Jun 2022


---[[User:barronh|B. Henderson]] 2016-05-03 15:25 (EDT)
|-valign="top"
|University of York
|Chlorine chemistry
|[mailto:mat.evans@york.ac.ul Mat Evans]<br>
[mailto:al1916@york.ac.uk Amy Lees]
|01 Oct 2022


=== Working Group Tele-con on the 2nd December 2011 ===
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[[ChemTelecon20111202]]
|Harvard University and<br>MPIC-Mainz
'''''[mailto:mat.evans@york.ac.uk Mat Evans]'''''
|Further development of [https://kpp.readthedocs.io The Kinetic PreProcessor (KPP)]
|[mailto:yantosca@seas.harvard.edu Bob Yantosca] (GCST)
|03 Jun 2022


=== Isoprene chemistry ===
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I've created a page with some of the recent literature on [[Isoprene|isoprene chemistry]]. Please add more papers as they come along! ([[User:mje| MJE Leeds]])
|Harvard University
|Adding an adaptive solver capability into [https://kpp.readthedocs.io KPP]
|[mailto:hplin@seas.harvard.edu Haipeng Lin]
|03 Jun 2022


=== HO2 + CH2O ===
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Scheme does not contain the HO2 + CH2O --> Adduct reaction (MJE Leeds)
|GCST
|Migrating the Hg chemistry mechanism to [https://kpp.readthedocs.io KPP]
|[mailto:yantosca@seas.harvard.eduard.edu Bob Yantosca] (GCST)
|03 Jun 2022


Hermans, I., et al. (2005), Kinetics of alpha-hydroxy-alkylperoxyl radicals in oxidation
|-valign="top"
processes. HO2 center dot-initiated oxidation of ketones/aldehydes near the tropopause,
|GCST
Journal of Physical Chemistry A, 109(19), 4303-4311.
|Adding a CO-CO2-CH4-OCS chemistry mechanism with [https://kpp.readthedocs.io KPP]
|[mailto:yantosca@seas.harvard.eduard.edu Bob Yantosca] (GCST)
|03 Jun 2022


According to this paper, this reaction is significant when Temperature is below 220K.
|-valign="top"
|U Montana
|Furans chemistry in MCM and in GEOS-Chem
|[mailto:lixu.jin@umontana.edu Lixu Jin]<br>[mailto:lu.hu@mso.umt.edu Lu Hu]
|21 May 2022


--[[User:Jmao|J Mao.]] 15:00, 10 Aug 2009 (EDT)
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|U Wollongong
|Evaluation of aromatic oxidation products using new observational constraints
|[mailto:smm997@uowmail.edu.au Stephen MacFarlane]<br>[mailto:jennyf@uow.edu.au Jenny Fisher]
|9 June 2022


== Previous issues that have now been resolved ==
|-valign="top"
|U Wollongong, U Sydney, UNSW
|Impacts of photophysical oxidation of aldehydes
|[mailto:paolos@uow.edu.au Paolo Sebastianelli]<br>[mailto:jennyf@uow.edu.au Jenny Fisher]
|10 June 2024


=== NIT should be converted to molec/cm3 in calcrate.F ===
|-valign="top"
|UNSW, U Wollongong
|GEOS-Chem simulation of HFO and CF3CHO chemistry
|[mailto:b.killen@unsw.edu.au Beth Killen]<br>[mailto:jennyf@uow.edu.au Jenny Fisher]
|10 June 2024


<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The code in <tt>calculate.F</tt> will be replaced by the KPP master equation file.'''''</span>
|-valign="top"
|University of California, Riverside
|Updates to DMS oxidation scheme
|[mailto:wporter@ucr.edu William Porter]
|26 August 2020


In <tt>calcrate.F</tt>, we have:
|-valign="top"
|Harvard University
|Overhaul of cloud pH code including: use of Newton's method and addition of crustal cations and organic acids
|[mailto:vshah@g.harvard.edu Viral Shah]<br>[mailto:jmoch@g.harvard.edu Jonathan Moch]
|5 May 2019


                    ! Nitrate effect; reduce the gamma on nitrate by a
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                    ! factor of 10 (lzh, 10/25/2011)
|U Alaska Fairbanks
                    IF ( N == 8 ) THEN
|Monoterpene oxidation and its impact on SOA formation
                        TMP1 = State_Chm%Tracers(IX,IY,IZ,IDTSO4) +
|[mailto:yzheng4@alaska.edu Yiqi Zheng]<br>[mailto:jmao2@alaska.edu Jingqiu Mao]
    &                        State_Chm%Tracers(IX,IY,IZ,IDTNIT)
|21 April 2019
                        TMP2 = State_Chm%tracers(IX,IY,IZ,IDTNIT)
                        IF ( TMP1 .GT. 0.0 ) THEN
                          XSTKCF = XSTKCF * ( 1.0e+0_fp - 0.9e+0_fp
    &                            *TMP2/TMP1 )
                        ENDIF
                    ENDIF


Here NIT is added to SO4 but NIT is in different units than SO4. This unit difference can be traced to the definition of IDTRMB, which is only nonzero for species that are in the SMVGEAR mechanism. Since NIT is not a SMVGEAR species, IDTRMB = 0 for NIT and it is therefore skipped in the unit conversion from kg --> molec/cm3 in <tt>partition.F</tt>.
|-valign="top"
| FSU
|Stratosphere-troposphere coupling, improvements to UCX & H2 chemistry
|[mailto:cdholmes@fsu.edu Chris Holmes]
|May 2017


This issue was discovered during the implementation of [[FlexChem]]. In [[GEOS-Chem v11-01#v11-01g|GEOS-Chem v11-01g]] and later versions, units of NIT are properly accounted for in routine <tt>HETN2O5</tt> (found in <tt>gckpp_HetRates.F90</tt>).
|-valign="top"
|FSU
|Methane and methyl chloroform lifetimes
|[mailto:cdholmes@fsu.edu Chris Holmes]
|May 2017


--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 20:25, 12 September 2016 (UTC)
|-valign="top"
|FSU
|Arctic halogen & ozone chemistry
|[mailto:cdholmes@fsu.edu Chris Holmes]
|May 2017
|}


=== rate of HNO4 ===
== Current GEOS-Chem Chemistry Issues (please add yours!) ==
 
<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The <tt>globchem.dat</tt> file will be replaced by the KPP master equation file.'''''</span>
 
[mailto:ecbrow@berkeley.edu Ellie Browne] found a typo in the globchem.dat ([[GEOS-Chem v8-02-01]] and beyond)
<pre>
A  73 9.52E-05  3.2E+00 -10900 1 P  0.60    0.    0.       
      1.38E+15  1.4E+00 -10900 0    0.00    0.    0.       
      HNO4          +                        M                               
=1.000HO2          +1.000NO2          +                  +
</pre>
This should be corrected as:
<pre>
A  73 9.52E-05  3.4E+00 -10900 1 P  0.60    0.    0.       
      1.38E+15  1.1E+00 -10900 0    0.00    0.    0.       
      HNO4          +                        M                               
=1.000HO2          +1.000NO2          +                  +
</pre>
The difference is within 2%.
 
--[[User:Jmao|J Mao.]] 19:04, 30 Aug 2010 (EDT)<br>
--[[User:Bmy|Bob Y.]] 16:12, 4 November 2011 (EDT)
 
=== near-IR photolysis of HNO4 ===
 
<span style="color:green">'''''This update was added to [[GEOS-Chem v8-02-04]].'''''</span>
 
<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The <tt>globchem.dat</tt> file will be replaced by the KPP master equation file.'''''</span>
 
1. Since FastJX already takes this into account with cross section data at 574nm, we do not need to redo this in <tt>calcrate.f</tt>.  We can therefore comment out this entire IF block:
        !---------------------------------------------------------------------
        ! Prior to 10/27/09:
        ! FastJX has taken near-IR photolysis into account with
        ! cross section at 574nm, so we don't need to add 1e-5 anymore.
        ! According to Jimenez et al., "Quantum yields of OH, HO2 and
        ! NO3 in the UV photolysis of HO2NO2", PCCP, 2005, we also
        ! changed the branch ratio from 0.67(HO2)/0.33(OH) to 0.95/0.05
        ! This will put most weight of near-IR photolysis on HO2 channel.
        ! (jmao, bmy, 10/27/09)
        !
        !!==============================================================
        !! HARDWIRE addition of 1e-5 s-1 photolysis rate to
        !! HNO4 -> HO2+NO2 to account for HNO4 photolysis in near-IR --
        !! see Roehl et al. 'Photodissociation of peroxynitric acid in
        !! the near-IR', 2002. (amf, bmy, 1/7/02)
        !!
        !! Add NCS index to NKHNO4 for SMVGEAR II (gcc, bmy, 4/1/03)
        !!==============================================================
        !IF ( NKHNO4(NCS) > 0 ) THEN
        !
        !  ! Put J(HNO4) in correct spot for SMVGEAR II
        !  PHOTVAL = NKHNO4(NCS) - NRATES(NCS)
        !  NKN    = NKNPHOTRT(PHOTVAL,NCS)
        !
        !  DO KLOOP=1,KTLOOP
        !     RRATE(KLOOP,NKN)=RRATE(KLOOP,NKN) + 1d-5
        !  ENDDO
        !ENDIF
        !---------------------------------------------------------------------
 
 
2. We need to change the branch ratio of HNO4 photolysis in <tt>ratj.d</tt>.  Change these lines from:
 
13 HNO4      PHOTON    OH        NO3                  0.00E+00  0.00    33.3  HO2NO2
14 HNO4      PHOTON    HO2        NO2                  0.00E+00  0.00    66.7  HO2NO2
 
to:
 
13 HNO4      PHOTON    OH        NO3                  0.00E+00  0.00      5.0  HO2NO2
14 HNO4      PHOTON    HO2        NO2                  0.00E+00  0.00    95.0  HO2NO2
 
This is based on Jimenez et al. (Quantum yields of OH, HO2 and NO3 in the UV photolysis of HO2NO2, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2005) shows that HO2 yield should be 0.95 and OH yield should be 0.05 for wavelength above 290nm.
 
This way all the near-IR photolysis will have most weight on HO2 channel(Stark et al., Overtone dissociation of peroxynitric acid (HO2NO2): Absorption cross sections and photolysis products, JOURNAL OF PHYSICAL CHEMISTRY A, 2008).
 
This update has now been added to the [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v6.pdf chemistry mechanism documentation file].
 
--[[User:Jmao|J Mao.]] 11:00, 26 Oct 2009 (EDT)<br>
--[[User:Bmy|Bob Y.]] 16:08, 4 November 2011 (EDT)
 
=== yield of isoprene nitrates ===
 
<span style="color:green">'''''This update was added to [[GEOS-Chem v8-03-02]] as a post-release patch, and standardized in [[GEOS-Chem v9-01-01]].'''''<?span>
 
<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The <tt>globchem.dat</tt> file will be replaced by the KPP master equation file.'''''</span>
 
[mailto:paulot@caltech.edu Fabien Paulot] found a problem in current chemistry scheme.  In [[GEOS-Chem v8-02-01]] and beyond, isoprene nitrates are produced twice: one through channel A and one through 10% loss in channel B. This makes the loss of NOx larger than it should be (18.7% vs. 10%) and also reduces the yield of MVK/MACR/CH2O by about 13%.
 
A  453 2.70E-12  0.0E+00    350 1 B  0.00    0.    0.       
        5.00E+00  0.0E+00      0 0    0.00    0.    0.       
      RIO2          +    NO                                             
=0.900NO2          +0.900HO2          +0.340IALD          +0.340MVK   
+0.220MACR          +0.560CH2O          +                  + 
         
A  453 2.70E-12  0.0E+00    350 1 A  0.00    0.    0.       
        5.00E+00  0.0E+00      0 0    0.00    0.    0.       
      RIO2          +    NO                                             
=1.000HNO3          +                  +                  +           
 
So it should be corrected as (no channel A):
 
A  453 2.70E-12  0.0E+00    350 0 0  0.00    0.    0.       
      RIO2          +    NO                                             
=0.900NO2          +0.900HO2          +0.340IALD          +0.340MVK   
+0.220MACR          +0.560CH2O          +                  +     
D  453 2.70E-12  0.0E+00    350 1 A  0.00    0.    0.       
        5.00E+00  0.0E+00      0 0    0.00    0.    0.       
      RIO2          +    NO                                             
=1.000HNO3          +                  +                  + 
 
--[[User:Jmao|J Mao.]] 18:04, 30 Aug 2010 (EDT)<br>
--[[User:Bmy|Bob Y.]] 16:05, 4 November 2011 (EDT)
 
=== Potential issue with reading restart.cspec file ===
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-01-02_benchmark_history#v9-01-02c|v9-01-02c]] and approved on 21 Jul 2011.'''''</span>
 
<span style="color:red">'''''The binary-punch format <tt>restart.cspec.YYYYMMDDhh</tt> file is slated to be replaced by a netCDF-format restart file, starting in [[GEOS-Chem v11-01]] and higher versions.  But during a transition period, you can still request binary-punch format output.'''''</span>
 
Jingqiu Mao discovered a mis-indexing problem when using the <tt>restart.cspec.YYYYMMDDhh</tt> file.  Please see [[Restart files#Potential issue with reading restart.cspec_file|this wiki post]] for more information.
 
--[[User:Bmy|Bob Y.]] 16:02, 4 November 2011 (EDT)
 
=== Centralizing chemistry time step===
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-01-02_benchmark_history#v9-01-02q|v9-01-02q]] and approved on 18 Oct 2011.'''''</span>
 
Please see the full discussion on the [[Centralized chemistry time step]] wiki page.
 
--[[User:Bmy|Bob Y.]] 16:01, 4 November 2011 (EDT)
 
=== GLCO3, GLPAN bug in standard mechanism ===
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-01-03_benchmark_history#v9-01-03a|v9-01-03a]] and approved on 08 Dec 2011.'''''</span>
 
<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The <tt>globchem.dat</tt> file will be replaced by the KPP master equation file.'''''</span>
 
'''''[mailto:fabienpaulot@gmail.com Fabien Paulot] wrote:'''''
 
:I think there is a relatively serious bug in the standard chemistry.  GLPAN and GLCO3 are set to inactive but their production and loss reactions are active.  As a result they never reach equilibrium and this results in an artificial loss of NOx.
 
:If this is the only cause of the imbalance between sources and sinks of NOx in my simulations, this would account for ~5% of NOy losses.  I don't see that problem in a simulation with a different chemistry that among other changes does not feature those reactions. So hopefully that's it.
 
:To fix the error, I made the following modifications in <tt>globchem.dat</tt>:
 
:#I set GLPAN and GLCO3 rxns from active to dead.  These rxns were causing an artificial loss of NOx.
:#I have physically removed GLCO3, GLP, GLPAN, GPAN, ISNO3, MNO3, O2CH2OH, MVN2 and their associated reactions. 
:#I have made GLYX active.  I'm not sure why it's not active by default.
 
:and to <tt>ratj.d</tt>:
 
:# I deleted photolysis reactions for MNO3 and GLP, since these species have also now been deleted in <tt>globchem.dat</tt>
 
--[[User:Bmy|Bob Y.]] 14:51, 10 November 2011 (EST)<br>
--[[User:Melissa Payer|Melissa Payer]] 10:49, 15 December 2011 (EST)
 
=== Bug in routine ARSL1K ===
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem v9-01-03 benchmark history#v9-01-03m|v9-01-03m]] and approved on 06 Jun 2012.'''''</span>
 
<span style="color:red">'''''SMVGEAR will be removed from [[GEOS-Chem v11-01]] and higher versions.  The <tt>ARSL1K</tt> routine will be replaced by an equivalent function in KPP's rate law library.'''''</span>
 
A bug in routine ARSL1K became problematic in the implementation of Justin Parrella's [[Bromine_chemistry_mechanism|tropospheric bromine chemistry mechanism]] for [[GEOS-Chem v9-01-03]]. In the bromine chemistry mechanism, a sticking coefficient of 0.0 is passed to the routine ARSL1K for non-sulfate, non-sea salt aerosol. The IF statement modified in [[GEOS-Chem_v8-02-04#Div-by-zero_error_encountered_in_arsl1k.f|GEOS-Chem v8-02-04]] resulted in the reaction rate being set to the default value of 1.0d-3. A 1-month benchmark for July 2005 indicated that the simulated BrO was a little more than twice the expected zonal mean. Modifying the default value from 1.0d-3 to 1.0d-30 resulted in reasonable simulated BrO values.
 
'''''[mailto:mat.evans@york.ac.uk Mat Evans] wrote:'''''
 
:I've re-run two 2 month simulation [using [[GEOS-Chem v9-01-02]]]. One with the error handling value of 1e-3 (standard) and one with it being 1e-30. There are 5127 time and space points where the model traps the problem and invokes the 1e-3 or 1e-30 value. There are 30*24*2*37*72*46 (roughly 200 million) time and space points when the error could have occurred so we are looking at a relatively infrequent event. 
 
:The simulations show virtually no difference between the two simulations.
 
:mean and stddev ratio of all grid boxes with and without the fix are shown below
    NOx    0.999996  0.000409291
    Ox      1.00000  1.27233e-05
    O3      1.00000  1.52284e-05
    PAN    0.997849  0.0111997
    CO      1.00000  4.21768e-06
    ALK4    0.990514  0.0351941
    ISOP    0.999979  0.0108033
    H2O2    0.992067  0.0264659
    DST1    1.00000  0.00000
    HO2    0.999996  0.00309464
    OH      1.00003  0.00767954
 
:So although there are some differences they are very minor. For completeness we should put this in as a bug fix (make the error value 1d-30 rather than 1d-3). But it is not a major problem.
 
--[[User:Melissa Payer|Melissa Payer]] 17:52, 14 May 2012 (EDT)
 
=== Acetone photolysis ===


[[FAST-J_photolysis_mechanism#v9-02_post-release_patch_to_fix_bug_in_acetone_photolysis_pressure_dependency|This discussion has been moved to our ''FAST-J photolysis mechanism'' wiki page]].
=== Carbon balance ===


--[[User:Bmy|Bob Y.]] 15:20, 20 May 2014 (EDT)
==== Script for evaluating carbon balance ====


== Documentation ==
'''''[http://www.barronh.com/ Barron Henderson] wrote:'''''


*[http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v6.pdf Updated chemical reactions] that will be used in [[GEOS-Chem v8-02-04]] and higher.
<blockquote>[I created] an evaluation script to preserve balances going forward as the mechanism evolves (e.g., as isoprene gets updated).  
* [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v5.pdf Updated chemical reactions] now used in [[GEOS-Chem v8-02-01]] through [[GEOS-Chem v8-02-03]].
Currently, this done using an off-line script described in a [http://www.evernote.com/l/ATuCIZsKADFPPKnKQBlk07TFevitHHQ1Q_o/ linked note]. The approach is pretty straight-forward, but could be expanded to check conservation of functional groups as suggested by Mat.
**All typos have now been corrected in the present file.
* [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/jv_spec_format.pdf Format of FAST-J input file <tt>jv_spec.dat</tt>]


--[[User:Bmy|Bob Y.]] 15:41, 27 October 2009 (EDT)
Longer term, the same technique would ideally be built-in to the standard KPP as an optional report. I discussed it with Michael Long and we both think that KPP has most of the capability for atom conservation (if not all). It may simply be a matter of defining the chemical formulas in the *.spc file.</blockquote>

Latest revision as of 14:47, 23 September 2024

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--Bob Y. (talk) 18:29, 21 August 2015 (UTC)

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GCST Adding a CO-CO2-CH4-OCS chemistry mechanism with KPP Bob Yantosca (GCST) 03 Jun 2022
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U Alaska Fairbanks Monoterpene oxidation and its impact on SOA formation Yiqi Zheng
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Current GEOS-Chem Chemistry Issues (please add yours!)

Carbon balance

Script for evaluating carbon balance

Barron Henderson wrote:

[I created] an evaluation script to preserve balances going forward as the mechanism evolves (e.g., as isoprene gets updated).

Currently, this done using an off-line script described in a linked note. The approach is pretty straight-forward, but could be expanded to check conservation of functional groups as suggested by Mat.

Longer term, the same technique would ideally be built-in to the standard KPP as an optional report. I discussed it with Michael Long and we both think that KPP has most of the capability for atom conservation (if not all). It may simply be a matter of defining the chemical formulas in the *.spc file.