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}
- \epsilon_{ij3} f_c u_j h = - g h \frac{\partial \eta }{\partial x_j}
- \epsilon_{ij3} f_c U_j h = - g h \frac{\partial \eta }{\partial x_j}
  - \frac{h}{\rho_0} \frac{\partial p_a }{\partial x_j}
  - \frac{h}{\rho_0} \frac{\partial p_a }{\partial x_j}
+ \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>   
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| <math> \eta </math> ||  Water surface elevation with respect to the still water elevation || m
| <math> \eta </math> ||  Water surface elevation with respect to the still water elevation || m
|-
|-
| <math> u_j </math> || Current velocity in the jth direction || m/sec
| <math> U_j </math> || Current velocity in the jth direction || m/sec
|-
| <math> u_j </math> || Current velocity in the jth direction || m/sec
|-
|-
| <math> S </math> || Sum of Precipitation and evaporation per unit area || m/sec
| <math> S </math> || Sum of Precipitation and evaporation per unit area || m/sec

Revision as of 20:43, 17 May 2010

Governing Equation

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

for

for and

Symbol Description Units
Time sec
Total water depth m
Still water depth m
Water surface elevation with respect to the still water elevation m
Current velocity in the jth direction m/sec
Sum of Precipitation and evaporation per unit area m/sec
Gravitational constant m/sec2
Water density kg/m3
Atmospheric pressure Pa
Turbulent eddy viscosity m2/sec

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