CMS-Flow Hydrodnamics: Variable Definitions

The instantaneous current velocity u_i is split into:

in which

${\displaystyle \overline{u_i}}$ = current (wave-averaged) velocity [m/s]

${\displaystyle \widetilde{u_i}}$ = wave (oscillatory) velocity with wave-average ${\displaystyle \overline{\widetilde{u_i}}=0[m/s]}$

${\displaystyle u_i^{\text{'}}}$ = turbulent fluctuation with ensemble average ${\displaystyle ⟨u_i^{\text{'}}⟩}$ = 0 and wave average ${\displaystyle \overline{u_i^{\text{'}}}}$ = 0 [m/s]

The wave-averaged total volume flux is defined as

where

${\displaystyle h}$ = wave-averaged water depth ${\displaystyle h=\overline{\eta }-z_b}$ [m]

${\displaystyle V_i}$ = total mean mass flux velocity or simply total flux velocity for short [m/s]

${\displaystyle u_i}$ = instantaneous current velocity [m/s]

${\displaystyle \eta }$ = instantaneous water level with respect to the Still Water Level (SWL) [m]

${\displaystyle z_b}$ = bed elevation with respect to the SWL [m]

The total flux velocity is also referred to as the mean transport velocity (Phillips 1977) and mass transport velocity (Mei 1983). The current volume flux is defined as

where ${\displaystyle U_i}$ is the depth-averaged current velocity. Similarly, the wave volume flux is defined as by

where

${\displaystyle U_{wi}}$ = depth-averaged wave flux velocity [m/s]

${\displaystyle {\eta }_t}$ = wave trough elevation [m]

Therefore the total flux velocity may be written as

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