Boundary Conditions: Difference between revisions

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where <math>c_{wall}</math> is the wall friction coefficient equal to
where <math>c_{wall}</math> is the wall friction coefficient equal to
:::<math>c_{wall} = \left[\frac{\kappa}{ln(y_p / y_0) - 1}  \right]^2 </math>  (2-35)
where <math>y_0</math>  is the roughness length of the wall and is assumed to be equal to that of the bed (i.e.<math>y_0 = z_0 ). y_p</math>  is the distance from the wall to the cell center.
Flux Boundary Condition
The flux boundary condition is typically applied to the upstream end of a river or stream and is specified as either a constant or time-series of total water volume flux Q is defined as
:::<math>Q = \sum_i h_i (\overrightarrow{U_i}\cdot \hat{n})\Delta l_i</math>  (2-36)
where
:: i = subscript indicating a boundary cell
:: Q = total volume flux across the boundary [m<sup>3</sup>/s]
::h =  total water depth [m]
::<math>\overrightarrow{U}  </math> = depth-average current velocity [m/s]
::<math>\hat{n} </math> = boundary face unit vector (positive outward)
::<math>\Delta l</math> = cell width in the transverse direction to flow [m]

Revision as of 15:48, 22 July 2014

Boundary Conditions

Wall Boundary Condition

At closed boundaries, two boundary conditions are applied. The first is zero flow normal to the boundary, and the second is the tangential shear stress due to flow parallel to the wall boundary. In CMS, two boundary conditions are available for tangential flow to walls. The first is a free-slip boundary condition in which the tangential shear stress set to zero, and the second is partial-slip boundary condition in which a friction term is included by assuming a log-law for a rough wall.

(2-34)

where is the wall friction coefficient equal to

(2-35)

where is the roughness length of the wall and is assumed to be equal to that of the bed (i.e. is the distance from the wall to the cell center.

Flux Boundary Condition

The flux boundary condition is typically applied to the upstream end of a river or stream and is specified as either a constant or time-series of total water volume flux Q is defined as

(2-36)

where

i = subscript indicating a boundary cell
Q = total volume flux across the boundary [m3/s]
h = total water depth [m]
= depth-average current velocity [m/s]
= boundary face unit vector (positive outward)
= cell width in the transverse direction to flow [m]