Model:ChesROMS: Difference between revisions
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{{Model identity2 | {{Model identity2 | ||
| | |ModelDomain=Marine | ||
|One-line model description=Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS | |One-line model description=Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS | ||
|Extended model description=ChesROMS is a community ocean modeling system for the Chesapeake Bay region being developed by scientists in NOAA, University of Maryland, CRC (Chesapeake Research Consortium) and MD DNR (Maryland Department of Natural Resources) supported by the NOAA MERHAB program. The model is built based on the Rutgers Regional Ocean Modeling System (ROMS, http://www.myroms.org/) with significant adaptations for the Chesapeake Bay. | |Extended model description=ChesROMS is a community ocean modeling system for the Chesapeake Bay region being developed by scientists in NOAA, University of Maryland, CRC (Chesapeake Research Consortium) and MD DNR (Maryland Department of Natural Resources) supported by the NOAA MERHAB program. The model is built based on the Rutgers Regional Ocean Modeling System (ROMS, http://www.myroms.org/) with significant adaptations for the Chesapeake Bay. | ||
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|Town / City=Cambridge | |Town / City=Cambridge | ||
|Postal code=21613 | |Postal code=21613 | ||
|Country=United States | |||
|State=Maryland | |State=Maryland | ||
|Email address=wenlong@umces.edu | |Email address=wenlong@umces.edu | ||
}} | }} | ||
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|Does model development still take place?=No | |Does model development still take place?=No | ||
|Source code availability=Through web repository | |Source code availability=Through web repository | ||
|Source web address= | |Source web address=http://ches.communitymodeling.org/models/ChesROMS/ | ||
|Program license type=Other | |Program license type=Other | ||
|Program license type other=MIT/X License, see License_ROMS.txt. | |Program license type other=MIT/X License, see License_ROMS.txt. | ||
}} | }} | ||
{{Input - Output description | {{Input - Output description | ||
|Describe input parameters=There are hundreds of input parameters for the physical, ecosystem, and sediment models. In addition, there are input scripts for floats, stations, model coupling, and data assimilation. | |Describe input parameters=There are hundreds of input parameters for the physical, ecosystem, and sediment models. In addition, there are input scripts for floats, stations, model coupling, and data assimilation. | ||
|Input format=ASCII | |Input format=ASCII | ||
|Other input format=ASCII (input scripts), NetCDF (input fields). | |Other input format=ASCII (input scripts), NetCDF (input fields). | ||
|Describe output parameters=There are hundreds of output parameters and fields that are written to several NetCDF files. | |Describe output parameters=There are hundreds of output parameters and fields that are written to several NetCDF files. | ||
|Other output format=NetCDF, CF-convections. | |Other output format=NetCDF, CF-convections. | ||
|Pre-processing software needed?=No | |Pre-processing software needed?=No | ||
|Post-processing software needed?=Yes | |Post-processing software needed?=Yes | ||
|Describe post-processing software=Yes, ROMS I/O is via NetCDF and follows CF-standard conventions. Therefore, any visualization software for NetCDF files can be used for pre- and post-processing. | |Describe post-processing software=Yes, ROMS I/O is via NetCDF and follows CF-standard conventions. Therefore, any visualization software for NetCDF files can be used for pre- and post-processing. | ||
|Visualization software needed?=Yes | |Visualization software needed?=Yes | ||
|Other visualization software=Yes, a plotting package is provided. It uses the NCAR's graphics Library. Any visualization package for NetCDF files can be used, like IDL, Matlab, and others. | |Other visualization software=Yes, a plotting package is provided. It uses the NCAR's graphics Library. Any visualization package for NetCDF files can be used, like IDL, Matlab, and others. | ||
}} | }} | ||
{{Process description model | {{Process description model | ||
|Describe processes represented by the model=ROMS resolved fast (gravity waves) and slow (Rossby waves) dynamics. Hydrostatic approximation but there is a nonhydrostatic version of ROMS. | |Describe processes represented by the model=ROMS resolved fast (gravity waves) and slow (Rossby waves) dynamics. Hydrostatic approximation but there is a nonhydrostatic version of ROMS. | ||
|Describe key physical parameters and equations=Navier-Stokes primitive equations. Bio-optical, biogeochemical, and ecosystem models equations. Cohesive and non cohesive sediment equations. Several vertical turbulece equations (KPP, GLS, MY-2.5). Air-Sea interaction coupling equations (COARE). Bottom boundary layer model equations. | |Describe key physical parameters and equations=Navier-Stokes primitive equations. Bio-optical, biogeochemical, and ecosystem models equations. Cohesive and non cohesive sediment equations. Several vertical turbulece equations (KPP, GLS, MY-2.5). Air-Sea interaction coupling equations (COARE). Bottom boundary layer model equations. | ||
|Describe length scale and resolution constraints=Estuary, regional, and basin scales. There are couple of global applications. | |Describe length scale and resolution constraints=Estuary, regional, and basin scales. There are couple of global applications. | ||
|Describe time scale and resolution constraints=Hours, days, seasons. It also can be used for climate research (decades). | |Describe time scale and resolution constraints=Hours, days, seasons. It also can be used for climate research (decades). | ||
|Describe any numerical limitations and issues=ROMS has a predictior-corrector algorithm that is efficient and accuarate. This class of model (terrain-following) exhibits stronger sensitivity to topography which results in pressure gradient errors. ROMS has several pressure gradient algorithms that minimize this problem. | |Describe any numerical limitations and issues=ROMS has a predictior-corrector algorithm that is efficient and accuarate. This class of model (terrain-following) exhibits stronger sensitivity to topography which results in pressure gradient errors. ROMS has several pressure gradient algorithms that minimize this problem. | ||
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}} | }} | ||
{{Users groups model | {{Users groups model | ||
|Do you have current or future plans for collaborating with other researchers?=Yes, we work with several modeling groups around the world. | |Do you have current or future plans for collaborating with other researchers?=Yes, we work with several modeling groups around the world. | ||
}} | }} | ||
{{Documentation model | {{Documentation model | ||
|Manual model available=Yes | |Manual model available=Yes | ||
|Model website if any=https://www.myroms.org | |Model website if any=https://www.myroms.org | ||
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There is a very active ROMS user's forum: https://www.myroms.org/forum | There is a very active ROMS user's forum: https://www.myroms.org/forum | ||
NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login | NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login | ||
}} | }} | ||
{{CSDMS staff part | {{CSDMS staff part | ||
|OpenMI compliant=No but possible | |OpenMI compliant=No but possible | ||
|IRF interface=Yes | |||
|CMT component=No but possible | |||
|CCA component=Yes | |CCA component=Yes | ||
}} | }} | ||
{{Start coupled table}} | {{Start coupled table}} | ||
{{End a table}} | {{End a table}} | ||
{{End headertab}} | {{End headertab}} | ||
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<!-- PLEASE USE THE "EDIT WITH FORM" BUTTON TO EDIT ABOVE CONTENTS; CONTINUE TO EDIT BELOW THIS LINE --> | <!-- PLEASE USE THE "EDIT WITH FORM" BUTTON TO EDIT ABOVE CONTENTS; CONTINUE TO EDIT BELOW THIS LINE --> | ||
==Introduction== | ==Introduction== | ||
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== History == | == History == | ||
== | == References == | ||
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== Issues == | == Issues == | ||
== Help == | == Help == | ||
{{#ifexist:Model_help:{{PAGENAME}}|[[Model_help:{{PAGENAME}}]]|}} | |||
== Input Files == | == Input Files == | ||
== Output Files == | == Output Files == | ||
Latest revision as of 20:15, 16 September 2020
ChesROMS
Metadata
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Introduction
History
References
Nr. of publications: | 13 |
Total citations: | 7074 |
h-index: | 9 |
m-quotient: | 0.3 |
Featured publication(s) | Year | Model described | Type of Reference | Citations |
---|---|---|---|---|
Haidvogel, D.B.; Arango, H.; Budgell, W.P.; Cornuelle, B.D.; Curchitser, E.; Di Lorenzo, E.; Fennel, K.; Geyer, W.R.; Hermann, A.J.; Lanerolle, L.; Levin, J.; McWilliams, J.C.; Miller, A.J.; Moore, A.M.; Powell, T.M.; Shchepetkin, A.F.; Sherwood, C.R.; Signell, R.P.; Warner, J.C.; Wilkin, J.; 2008. Ocean forecasting in terrain-following coordinates: Formulation and skill assessment of the Regional Ocean Modeling System. Journal of Computational Physics, 227, 3595–3624. 10.1016/j.jcp.2007.06.016 (View/edit entry) | 2008 | CBOFS2 ChesROMS ROMS UMCESroms |
Model overview | 1071 |
Shchepetkin, Alexander F.; McWilliams, James C.; 2005. The regional oceanic modeling system (ROMS): a split-explicit, free-surface, topography-following-coordinate oceanic model. Ocean Modelling, 9, 347–404. 10.1016/j.ocemod.2004.08.002 (View/edit entry) | 2005 | CBOFS2 ChesROMS ROMS UMCESroms |
Model application | 3691 |
Song, Yuhe; Haidvogel, Dale; 1994. A Semi-implicit Ocean Circulation Model Using a Generalized Topography-Following Coordinate System. Journal of Computational Physics, 115, 228–244. 10.1006/jcph.1994.1189 (View/edit entry) | 1994 | CBOFS2 ChesROMS ROMS UMCESroms |
Model overview | 764 |
See more publications of ChesROMS |