SMS:ELCIRC: Difference between revisions
(New page: {{Template:ELCIRC Infobox}} As stated on the ELCIRC website (http://www.ccalmr.ogi.edu/CORIE/modeling/elcirc/): ELCIRC is an unstructured-grid model designed for the effective simulation...) |
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{{Template:ELCIRC Infobox}} | {{Template:ELCIRC Infobox}} | ||
{{SMS Deprecated Feature}} | |||
As stated on the ELCIRC website (http://www.ccalmr.ogi.edu/CORIE/modeling/elcirc/): | As stated on the ELCIRC website (http://www.ccalmr.ogi.edu/CORIE/modeling/elcirc/): | ||
<blockquote> | |||
ELCIRC is an unstructured-grid model designed for the effective simulation of 3D baroclinic circulation across river-to-ocean scales. It uses a finite-volume/finite-difference Eulerian-Lagrangian algorithm to solve the shallow water equations, written to realistically address a wide range of physical processes and of atmospheric, ocean and river forcings. The numerical algorithm is low-order, but volume conservative, stable and computationally efficient. It also naturally incorporates wetting and drying of tidal flats. While originally developed to meet specific modeling challenges for the Columbia River, ELCIRC has been extensively tested against standard ocean/coastal benchmarks, and is starting to be applied to estuaries and continental shelves around the world. | ELCIRC is an unstructured-grid model designed for the effective simulation of 3D baroclinic circulation across river-to-ocean scales. It uses a finite-volume/finite-difference Eulerian-Lagrangian algorithm to solve the shallow water equations, written to realistically address a wide range of physical processes and of atmospheric, ocean and river forcings. The numerical algorithm is low-order, but volume conservative, stable and computationally efficient. It also naturally incorporates wetting and drying of tidal flats. While originally developed to meet specific modeling challenges for the Columbia River, ELCIRC has been extensively tested against standard ocean/coastal benchmarks, and is starting to be applied to estuaries and continental shelves around the world. | ||
</blockquote> | |||
== Features == | == Features == | ||
The ELCIRC model can be used with the Generic Mesh Model. | |||
==Graphical Interface== | ==Graphical Interface== | ||
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== Related Topics == | == Related Topics == | ||
* [[SMS:Generic_Mesh_Model|Generic Model Interface]] | * [[SMS:Generic_Mesh_Model|Generic Model Interface]] | ||
* [[SMS:Generic Mesh Model|Generic Mesh Model]] | |||
{{Template: | {{Template:Navbox SMS}} | ||
[[Category:SMS 2D Mesh|E]] | [[Category:SMS 2D Mesh|E]] | ||
[[Category:ELCIRC|E]] | [[Category:ELCIRC|E]] | ||
[[Category:Generic Interface|E]] | |||
[[Category:External Links]] | |||
[[Category:Archived]] |
Latest revision as of 14:40, 4 June 2019
ELCIRC |
Developer |
Center for Coastal Margin Observation & Prediction |
Model Type |
|
Tutorials & Quick Tour |
This contains information about features no longer in use for the current release of SMS. The content may not apply to current versions. |
As stated on the ELCIRC website (http://www.ccalmr.ogi.edu/CORIE/modeling/elcirc/):
ELCIRC is an unstructured-grid model designed for the effective simulation of 3D baroclinic circulation across river-to-ocean scales. It uses a finite-volume/finite-difference Eulerian-Lagrangian algorithm to solve the shallow water equations, written to realistically address a wide range of physical processes and of atmospheric, ocean and river forcings. The numerical algorithm is low-order, but volume conservative, stable and computationally efficient. It also naturally incorporates wetting and drying of tidal flats. While originally developed to meet specific modeling challenges for the Columbia River, ELCIRC has been extensively tested against standard ocean/coastal benchmarks, and is starting to be applied to estuaries and continental shelves around the world.
Features
The ELCIRC model can be used with the Generic Mesh Model.
Graphical Interface
ELCIRC uses the Generic Model Graphical Interface.
External Links
Related Topics
SMS – Surface-water Modeling System | ||
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Modules: | 1D Grid • Cartesian Grid • Curvilinear Grid • GIS • Map • Mesh • Particle • Quadtree • Raster • Scatter • UGrid | |
General Models: | 3D Structure • FVCOM • Generic • PTM | |
Coastal Models: | ADCIRC • BOUSS-2D • CGWAVE • CMS-Flow • CMS-Wave • GenCade • STWAVE • WAM | |
Riverine/Estuarine Models: | AdH • HEC-RAS • HYDRO AS-2D • RMA2 • RMA4 • SRH-2D • TUFLOW • TUFLOW FV | |
Aquaveo • SMS Tutorials • SMS Workflows |