CMS-Flow:Hydro Eqs: Difference between revisions

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The depth-averaged 2-D continuity and momentum equations are given by
The depth-averaged 2-D continuity and momentum equations are given by


         <math> \frac{\partial h  }{\partial t} + \frac{\partial (h u_j )}{\partial x_j} = S </math>
         <math> \frac{\partial h  }{\partial t} + \frac{\partial (h u_j )}{\partial x_j} = S </math>for <math> j=1,2 </math>
for <math> j=1,2 </math>


         <math> \frac{\partial ( h u_i ) }{\partial t} + \frac{\partial (h u_i u_j )}{\partial x_j}
         <math> \frac{\partial ( h u_i ) }{\partial t} + \frac{\partial (h u_i u_j )}{\partial x_j}
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+ \frac{\partial }{\partial x_j} \biggl[ \nu_t  h \frac{\partial u_i }{\partial x_j} \biggr ]
+ \frac{\partial }{\partial x_j} \biggl[ \nu_t  h \frac{\partial u_i }{\partial x_j} \biggr ]
  + \frac{\tau_i }{\rho}
  + \frac{\tau_i }{\rho}
</math>
</math>for <math> i=1,2 </math> and  <math> j=1,2 </math>
for <math> i=1,2 </math> and  <math> j=1,2 </math>


where <math> t </math> is time, <math> u_j </math> is the current velocity in the jth direction, <math> h </math> is the total water depth, <math>  C_{sa} </math> is the salinity concentration, and <math> K_{sa} </math> is the salinity mixing coefficient.
where <math> t </math> is time, <math> u_j </math> is the current velocity in the jth direction, <math> h </math> is the total water depth, <math>  C_{sa} </math> is the salinity concentration, and <math> K_{sa} </math> is the salinity mixing coefficient.

Revision as of 22:09, 12 May 2010

Governing Equation

The depth-averaged 2-D continuity and momentum equations are given by

        for 
        for  and  

where is time, is the current velocity in the jth direction, is the total water depth, is the salinity concentration, and is the salinity mixing coefficient.