Model Coupling

Introduction

CMS-Flow and CMS-Wave can be run separately or coupled together using a process called steering. The variables passed from CMS-Wave to CMS-Flow are the significant wave height, peak wave period, wave direction, wave breaking dissipation, and radiation stress gradients. CMS-Wave uses the update bathymetry, water levels, and currents from CMS-Flow. The time interval (constant) at which CMS-Wave is run is called the steering interval. The steering process is as follows:

1. CMS-Wave model is run for the first two time steps (time = ${\displaystyle t}$ and time = ${\displaystyle t+\mathrm{\Delta }{t}_w}$) and the wave information is passed to CMS-Flow.

2. CMS-Flow runs from time = ${\displaystyle t}$ until time = ${\displaystyle t+\mathrm{\Delta }{t}_w+\mathrm{\Delta }t}$ and interpolates the wave variables from during the simulation

3. CMS-Wave is run again for time = ${\displaystyle t+2\mathrm{\Delta }{t}_w}$ and

4. The process is repeated over until the end of the steering simulation.

Prediction of Water Levels and Currents

Because CMS-Wave requieres the water surface elevation at times that are ahead of the hydrodynamics, the water surface elevation and currents. If the steering is relatively small (~<30 min), than the values from the previous time step may be used without significant error. This may be expressed in the following form

     ${\displaystyle \eta (x,y,t+\mathrm{\Delta }t)=\eta (x,y,t)}$  

However, in many coastal engineering projects it is desirable and common to use relatively large steering intervals of 2-3 hours and 3 hours is especially common since many wave buoy data products are at 3 hour intervals. In cases where the relative surface gradients at any time are much smaller than the mean tidal elevation, a better approximation of water level may be expressed as

     ${\displaystyle \eta (x,y,t+\mathrm{\Delta }t)=\overline{\eta }(x,y,t+\mathrm{\Delta }t)+\eta (x,y,t)-\overline{\eta }(x,y,t)}$  

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