SMS:TUFLOW FV: Difference between revisions

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<!--Obsolete
== TUFLOW FV ENGINE ==
== TUFLOW FV ENGINE ==
The TUFLOW computational engine computes 2D hydraulic solutions. The engine uses a macro style text-file input which allows the user to flexibly and efficiently control model configurations and simulations.
The TUFLOW computational engine computes 2D hydraulic solutions. The engine uses a macro style text-file input which allows the user to flexibly and efficiently control model configurations and simulations.
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==Using the Model / Practical Notes==
==Using the Model / Practical Notes==
A TUFLOW licence is not required to run a TUFLOW FV model.
A TUFLOW licence is not required to run a TUFLOW FV model.
 
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==External Links==
==External Links==
*[http://www.tuflow.com/Download/TUFLOW_FV/Manual/FV-UserManual-2014.01.pdf TUFLOW FV Manual]
*[http://www.tuflow.com/Download/TUFLOW_FV/Manual/FV-UserManual-2014.01.pdf TUFLOW FV Manual]

Revision as of 16:14, 16 August 2022

TUFLOW FV
Model Info
Model type Two-dimensional (2D) flexible mesh finite volume flood, tide and water quality simulation software.
Developer WBM BMT WBM (Australia)
Web site www.tuflow.com
Tutorials SMS Learning Center

TUFLOW FV (which stands for Two-dimensional Unsteady FLOW Finite Volume) is a flexible mesh finite volume numerical model that simulates hydrodynamic, sediment transport and water quality processes in oceans, coastal waters, estuaries and rivers. The model may be used for coastal and nearshore environments including beaches and coastlines as well as offshore environments such as estuaries, river entrances and deltas, and floodplains. Uses include modeling river flood flow, tsunami inundation (the finite-volume scheme is well suited for a tsunami's mixed sub/super-critical flow regimes), beach erosion, ocean pollution, and estuary flow.

Unlike the fixed square grids of TUFLOW Classic, the flexible triangular or quadrilateral mesh of TUFLOW FV allows users to modify mesh resolution spatially, seamlessly increasing the model resolution in areas of interest. This modelling approach reduces the number of computation cells needed in a model reducing run times. Additionally, TUFLOW FV can be run in parallel on multiple processors, threads, or computers.

The TUFLOW FV model can be added to a paid edition of SMS.

External Links