SMS:ADCIRC: Difference between revisions
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== Related Topics == | == Related Topics == | ||
* [[SMS:SMS Models|SMS Models]] | * [[SMS:SMS Models|SMS Models]] | ||
* [[SMS:LTEA|LTEA | * [[SMS:LTEA|LTEA – Linear Truncation Error Analysis]] | ||
* [[SMS:ADCIRC_Database|ADCIRC Database]] | * [[SMS:ADCIRC_Database|ADCIRC Database]] | ||
Revision as of 15:46, 1 November 2012
ADCIRC | |
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Model Info | |
Model type | Finite element hydrodynamic model for coastal oceans, inlets, rivers and floodplains. |
Developer |
Rick Luettich |
Web site | http://www.adcirc.org |
Tutorials |
General Section
Models Section
|
The ADCIRC (Advanced Circulation) model is a finite element hydrodynamic model for coastal oceans, inlets, rivers and floodplains. The initial developers of the code were Rick Luettich (University of North Carolina at Chapel Hill) and Joannes Westerink (University of Notre Dame). Other principal developers include Randall Kolar (University of Oklahoma at Norman) and Cline Dawson (University of Texas at Austin). Various other groups are involved in development and support around the country.
Graphical Interface
SMS provides a graphical interface that is designed to allow users to visualize the projects they are creating, easily modify project parameters, and view the solutions produced by the ADCIRC model. See ADCIRC Graphical Interface for more information.
The ADCIRC Graphical Interface contains tools to create and edit an ADCIRC simulation. The simulation consists of a geometric definition of the model domain (the mesh) and a set of numerical parameters. The parameters define the boundary conditions and options pertinent to the model.
The interface is accessed by selecting the 2D Mesh Module and setting the current model to ADCIRC. If a mesh has already been created for a ADCIRC simulation or an existing simulation read, the mesh object will exist in the Project Explorer and selecting that object will make the 2D Mesh module active and set the model to ADCIRC. See the Mesh Module documentation for guidance on building and editing meshes as well as visualizing mesh results.
The interface consists of the 2D Mesh Module Menus and tools augmented by the ADCIRC Menu. See ADCIRC Graphical Interface for more information.
Functionality
ADIRC is a system of computer programs for solving time dependent, free surface circulation and transport problems in two and three dimensions. These programs utilize the finite element method in space allowing the use of highly flexible, unstructured grids. Typical ADCIRC applications have included: (i) modeling tides and wind driven circulation, (ii) analysis of hurricane storm surge and flooding, (iii) dredging feasibility and material disposal studies, (iv) larval transport studies, (v) near shore marine operations.
For more information about the ADCIRC model visit www.adcirc.org.
Using the Model / Practical Notes
- There is an ADCIRC listserv that may be useful to keep up-to-date about the latest releases of ADCIRC and to post any questions about ADCIRC. It is adcirc@listserv.unc.edu. If you would like to join please email Crystal Fulcher.
Related Topics
External Links
- ADCIRC Home page
- Mar 2002 ERDC/CHL CHETN-IV-40 Guidelines for Using Eastcoast 2001 Database of Tidal Constituents within Western North Atlantic Ocean, Gulf of Mexico and Caribbean Sea [1]
- Jun 2001 ERDC/CHL CHETN-IV-32 Leaky Internal-Barrier Normal-Flow Boundaries in the ADCIRC Coastal Hydrodynamics Code [2]
- Mar 2001 Technical Report CHL-98-32 Shinnecock Inlet, New York, site Investigation Report 4, Evaluation of Flood and Ebb shoal Sediment Source Alternatives for the West of Shinnecock Interim Project, New York [3]
- Dec 1999 Coastal Engineering Technical Note IV-21 Surface-Water Modeling System Tidal Constituents Toolbox for ADCIRC [4] [5]
- ADCIRC wiki hosted by Seahorse Coastal Consulting
- Glacier Bay Test Case by Dave F. Hill
- Assessment of ADCIRC's Wetting and Drying Algorithm
Modules: Mesh Module · Cartesian Grid Module · Scatter Module · Map Module · GIS Module · Particle Module
Models: ADCIRC · BOUSS-2D · CGWAVE · CMS-Flow · CMS-Wave · FESWMS · FVCOM · Generic Mesh Model · GENESIS · HYDRO AS-2D · PTM · SRH-2D · Steering · STWAVE · TABS · TUFLOW