Drag and Sediment Dispersion Over Sand Waves

Abstract

Estimates of the drag coefficient over sand waves during calm weather in the southern North Sea have been obtained from measurements of the water slope and currents at different heights ( z) above the sea-bed using the log profile and momentum balance methods. An observed phase difference between principal terms in the momentum balance equation is examined theoretically. Drag coefficient estimates are found to agree broadly with previous studies. Owing to bedform asymmetry, average drag coefficient values obtained at z=1 m ( C 100) are found to be 0·0021 and 0·0029 for flood and ebb tides, respectively. Systematic changes in bed roughness are not detected. Using a momentum balance approach, the average drag coefficient value ( C d ) at z=10 m is found to be 0·0056. Changes in 10-min average C d values over sand waves during the tidal cycle are found to be small with bedform asymmetry having no detectable effect. Correlation between C d and C 100is found to be poor and separation of skin friction and form drag terms is not possible with existing measurements. The inclusion of form drag in C 100values at the present site leads to over-estimation of the bed shear stress ({q) available to mobilize and transport sediment. Mobile sediment, detected through the use of tracers and a transmissometer, was not found to have any measurable effect on either C d or C 100in calm weather conditions.