T. C. Lippmann scite author profile

Abstract. The vertical structure of the mean wave-driven longshore current over a barred beach is examined on three strong current days during the DUCK94 experiment, and it is found that the bottom boundary layer is well described by a logarithmic profile (mean correlation coefficient for all 22 profiles, 0.98). The logarithmic profile fits better in the trough, where turbulent bottom boundary layer processes predominate, than over the bar, where breaking-wave-induced turbulence generated at the surface modifies the profile. The surface layer in the presence of waves is well described by adjusting the logarithmic profile for the intermittent presence of water and adding the alongshore component of the mass transport velocity (slope of the least squares linear regression between model predictions and observations, 1.005 and root-mean-square (rms) error of 7%). Bed shear stresses calculated from logarithmic velocity profiles are equated to a quadratic bottom shear stress formulation. The associated bed shear stress coefficients vary by more than an order of magnitude across the surf zone (0.0006-0.012). Bottom roughness was measured throughout the nearshore using a sonic altimeter mounted on a moving platform. The bed shear stress coefficients are positively correlated with bottom roughness (linear correlation coefficient, 0.6). A higher linear correlation coefficient (0.8) is obtained by subtracting skin friction from the total bed shear stress.

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Longshore Surface Currents Measured by Doppler Radar and Video PIV Techniques

Perkovic

Lippmann

Frasier

2009

IEEE Trans. Geosci. Remote Sensing

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T. C. Lippmann

Practical use of video imagery in nearshore oceanographic field studies

The Application of Video Image Processing to the Study of Nearshore Processes

Vertical profiles of longshore currents and related bed shear stress and bottom roughness

Longshore Surface Currents Measured by Doppler Radar and Video PIV Techniques

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