GEOS-Chem nested grid simulations: Difference between revisions

From Geos-chem
Jump to navigation Jump to search
No edit summary
 
(15 intermediate revisions by 2 users not shown)
Line 1: Line 1:
This page contains some basic information pertaining to the GEOS-Chem nested grid simulations.  For more detailed information about met data availability for the various geographic regions, please see our [[Available met data for nested grid simulations]] wiki page.  We also invite you to visit [[Nested Model Working Group|the wiki page of the Nested Model Working Group]], which is responsible for coordinating nested-grid simulations within the GEOS-Chem user community.
This content has been moved to our [https://geos-chem.readthedocs.io/en/latest/supplemental-guides/nested-grid-guide.html '''Run nested grid simulations'''] Supplemental Guide at [https://geos-chem.readthedocs.io <tt>geos-chem.readthedocs.io</tt>].
 
Please also see our [http://acmg.seas.harvard.edu/geos/wiki_docs/nested_grids/geos_data_downloads.pdf protocol for downloading and processing nested grid met data], which outlines the responsibilities for user groups using GEOS-Chem nested grid simulations.
 
== Frequently asked questions ==
 
 
=== Within one region (e.g, NA, China/SE Asia, Europe), can you save out boundary conditions for more than one nested grid in the same global run? ===
 
Yes, a single global simulation can output boundary conditions for multiple nested grid regions. Simply select multiple regions you would like to output boundary conditions for within input.geos.
 
=== Is it possible to run nested GEOS-Chem simulations on the AWS cloud? ===
 
Yes, you can run the nested grid simulations on AWS cloud. Please contact the GEOS-Chem Support Team for more information.
 
=== If we perform a nested grid simulation, is it possible to save out output in netcdf format? ===
 
Yes! You can output netcdf diagnostics for nested grid runs.
 
=== Can I run a nested grid simulation with GEOS-FP meteorology? ===
 
Yes!  You can run GEOS-Chem nested grid simulations at the native [[GEOS-FP]] horizontal resolution of 0.25&deg; x 0.3125&deg; for the following regions:
 
# [[GEOS-Chem_horizontal_grids#0.25_x_0.3125_CH_nested_grid|China/SE Asia region]]
# [[GEOS-Chem_horizontal_grids#0.25_x_0.3125_NA_nested_grid|North America region]]
# [[GEOS-Chem_horizontal_grids#0.25_x_0.3125_EU_nested_grid|European region]]
 
--[[User:Melissa Payer|Melissa Sulprizio]] 16:17, 18 November 2014 (EST)
 
==== GEOS-FP nested-grid simulations for v10-01 ====
 
'''''Bastien Sauvage wrote:'''''
 
<blockquote>I would be interested in running GC v11 in nested mode over Europe during summer 2013 (with GEOS_FP). However I am not sure this is possible as emissions and restart le seem not to be available in 0.3x0.2 over Europe? Is there a way to perform this simulation?</blockquote>
 
'''''[[User:Lizzie Lundgren|Lizzie Lundgren]] replied:'''''
 
<blockquote>Starting in [[GEOS-Chem v10-01]] you do not need to use separate emissions files with resolutions matching those of the European grid.  The [[HEMCO|HEMCO emissions component]] can read global emissions and regrid them on-the-fly to the size of the nested grid.  All you need to do is make sure you have the HEMCO data directories available.
 
We do not have a European nested grid restart file available. However, you can contact the Nested Working Group to see if anyone has one to share.  You could also try to use <tt>REGRIDH_RESTART</tt> in GAMAP to regrid from a coarser resolution.  Alternatively, you can use the GAMAP routine called <tt>MAKE_EUR_DATA</tt> in the regridding directory of GAMAP.</blockquote>
 
--[[User:Bmy|Bob Yantosca]] ([[User talk:Bmy|talk]]) 15:40, 28 April 2017 (UTC)
 
=== How can I find which data are available for nested grid simulations? ===
 
Please see our [[Available met data for nested grid simulations]] wiki page.  You can download the data from either the Harvard or Dalhousie data archives via FTP (or the [[Downloading_GEOS-Chem_source_code_and_data#Using_wget_to_download_files|wget utility]]).
 
--[[User:Bmy|Bob Y.]] 14:09, 15 November 2010 (EST)
 
=== What if I can't find the GEOS-FP met data that I need? ===
 
If you cannot find the GEOS-FP nested grid met data for your particular geographic region of interest or time period of interest, then we invite you to download and process the met data yourself.  Please see our
[http://acmg.seas.harvard.edu/geos/wiki_docs/nested_grids/geos_data_downloads.pdf GEOS-5 nested grid data protocol document] for more information.
 
--[[User:Bmy|Bob Y.]] 14:13, 15 November 2010 (EST)
 
=== Where can I find out more info about nested grid errors? ===
 
Please see the
 
*[[Setting up GEOS-Chem nested grid simulations|Previous issues that are now resolved]] and
*[[Setting up GEOS-Chem nested grid simulations|Outstanding issues that are not yet resolved]]
 
posts on the [[Setting up GEOS-Chem nested grid simulations]] wiki page.
 
--[[User:Bmy|Bob Y.]] 14:22, 15 November 2010 (EST)
 
=== I noticed abnormal concentrations at boundaries of the nested region.  Is that normal? ===
 
If you see high tracer concentrations right at the boundary of your nested grid region, then this may be normal. 
 
For nested grid simulations, we have to leave a “buffer zone” (i.e. typically 3 boxes along each boundary) in which the TPCORE advection is not applied.  However, all other operations (chemistry, wetdep, drydep, convection, PBL mixing) will be applied.  Therefore, in the “buffer zone”, the concentrations will not be realistic because the advection is not allowed to transport the tracer out of these boxes.
 
In any case, the tracer concentrations in the “buffer zone” will get overwritten by the 2&deg; x 2.5&deg; or 4&deg; x 5&deg; boundary conditions at the specified time (usually every 3h).
 
'''''Therefore, you should exclude the boxes in the “buffer zone” from your scientific analysis.'''''
 
The following diagram illustrates this:
 
  <-------------------------------------- IGLOB ---------------------->
  +-------------------------------------------------------------------+  ^
  | GLOBAL REGION                                                    |  |
  |                                                                  |  |
  |                      <-------------- IIPAR ------------->        |  |
  |                                                                  |  |
  |                      +=================================[Y] ^    |  |
  |                      |  WINDOW REGION (met field size)  |  |    |  |
  |                      |                                  |  |    |  |
  |                      |      <------- IM_W ------->      |  |    |  |
  |                      |      +--------------------+  ^  |  |    |  |
  |                      |      |  TPCORE REGION    |  |  |  |    |  |
  |                      |      |  (advection is    |  |  |  |    |  |
  |<------- I0 ---------->|<---->|  done in this    | JM_W | JJPAR  | JGLOB
  |                      | I0_W |  window!!!)      |  |  |  |    |  |
  |                      |      |                    |  |  |  |    |  |
  |                      |      +--------------------+  V  |  |    |  |
  |                      |        ^                        |  |    |  |
  |                      |        | J0_W                    |  |    |  |
  |                      |        V                        |  |    |  |
  |                      [X]=================================+  V    |  |
  |                                ^                                  |  |
  |                                | J0                              |  |
  |                                V                                  |  |
[1]------------------------------------------------------------------+  V
 
Diagram notes:
#The outermost box ('''GLOBAL REGION''') is the global grid size.  This region has <tt>IGLOB</tt> boxes in longitude and <tt>JGLOB</tt> boxes in latitude.  The origin of the "Global Region" is at the south pole, at the lower left-hand corner (point <tt>[1]</tt>).  
#The next innermost box ('''WINDOW REGION''') is the nested-grid window. This region has <tt>IIPAR</tt> boxes in longitude and <tt>JJPAR</tt> boxes in latitude.  This is the size of the trimmed met fields that will be used for a "nested-grid" simulation. 
#The innermost region ('''TPCORE REGION''') is the actual area in which TPCORE advection will be performed.  Note that this region is smaller than the WINDOW REGION.  It is set up this way since a cushion of grid boxes is needed TPCORE Region for boundary conditions.
#<tt>I0</tt> is the longitude offset (# of boxes) and <tt>J0</tt> is the latitude offset (# of boxes) which translate between the "Global Region" and the "Window Region".
#<tt>I0_W</tt> is the longitude offset (# of boxes), and <tt>J0_W</tt> is the latitude offset (# of boxes) which translate between the WINDOW REGION and the TPCORE REGION.  These define the thickness of the '''Buffer zone''' mentioned above.
#The lower left-hand corner of the WINDOW REGION (point <tt>[X]</tt>) has longitude and latitude indices <tt>(I1_W, J1_W)</tt>. Similarly, the upper right-hand corner (point <tt>[Y]</tt>) has longitude and latitude indices <tt>(I2_W, J2_W)</tt>.
#Note that if <tt>I0=0, J0=0, I0_W=0, J0_W=0, IIPAR=IGLOB, JJPAR=JGLOB</tt> specifies a global simulation.  In this case the WINDOW REGION totally coincides with the "Global Region". 
#In order for the nested-grid to work we must save out concentrations over the WINDOW REGION from a coarse model (e.g. 2&deg; x 2.5&deg; or 4&deg; x 5&deg;) corresponding to the same fine-resolution WINDOW REGION.  These concentrations are copied along the edges of the 1x1 WINDOW REGION and are thus used as boundary conditions for TPCORE.
 
=== Can I read nested grid met field files directly with GAMAP? ===
 
Yes, but you will have to call [http://acmg.seas.harvard.edu/gamap/ GAMAP] with one of the following keywords:
 
  gamap, ... /China    ;; For China nested grid
  gamap, ... /NAmer    ;; For N. America nested grid
  gamap, ... /Eur      ;; For Europe nested grid
 
Otherwise you will get an error such as:
 
Attempt to read past end of FORTRAN unformatted file record. unit: 20.
 
You will also need to supply these keywords if you are using one of the lower-level GAMAP routines to read the data, for example:
 
ctm_get_data, ... /China
success = ctm_get_datablock( ..., /China )
 
etc.
 
 
== Setting up a 0.25 x 0.3125 nested-grid simulation for GEOS-FP ==
 
Visit our [[Setting up GEOS-Chem nested grid simulations]] wiki page for detailed instructions on how to set up a 0.25&deg; x 0.3125&deg; nested grid simulation with GEOS-FP meteorology.
 
--[[User:Melissa Payer|Melissa Sulprizio]] 16:17, 18 November 2014 (EST)

Latest revision as of 16:16, 21 May 2024

This content has been moved to our Run nested grid simulations Supplemental Guide at geos-chem.readthedocs.io.