Mathematical Model SWAN

Short Description

The mathematical model SWAN (Simulating WAves Nearshore) is a third-generation wave model which was developed at the Delft University of Technology). SWAN computes random, short-crested wind-generated waves in coastal regions and inland waters. It accounts for the following physics:

• wave propagation in time and space
• shoaling due to spatial variations in bottom and current
• refraction due to current and depth
• frequency shifting due to currents and nonstationary depth
• wave generation by wind
• three- and four-wave interactions
• whitecapping, bottom friction, and depth-induced breaking
• transmission through or blockage by sub-grid obstacles
• < wave induced setup
• < diffraction

Simulation

The SWAN-model can be used as a stand-alone postprocessor. But it is also available as a part of the integrated modelling system Delft3D, where the wave computations can be directly coupled to the three-dimensional computations of hydrodynamics and transport processes.

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Overview