Sand Motion Initiation by Water Waves
Author : Robert J. Hallermeier
Publisher :
Page : 54 pages
File Size : 44,31 MB
Release : 1980
Category : Beach erosion
ISBN :
Author : Robert J. Hallermeier
Publisher :
Page : 54 pages
File Size : 44,31 MB
Release : 1980
Category : Beach erosion
ISBN :
Author :
Publisher : Elsevier
Page : 476 pages
File Size : 17,61 MB
Release : 2011-09-22
Category : Science
ISBN : 008086953X
Hydrodynamics and sedimentation in wave-dominated coastal environments
Author :
Publisher :
Page : 376 pages
File Size : 30,15 MB
Release : 1983
Category : Coastal engineering
ISBN :
Author :
Publisher :
Page : 964 pages
File Size : 18,39 MB
Release : 1987
Category : Aeronautics
ISBN :
Author : United States. Army. Corps of Engineers
Publisher :
Page : 528 pages
File Size : 37,26 MB
Release : 1973
Category :
ISBN :
Author :
Publisher :
Page : 1052 pages
File Size : 44,30 MB
Release : 1983
Category : Government publications
ISBN :
Author :
Publisher :
Page : 912 pages
File Size : 39,52 MB
Release :
Category : Government publications
ISBN :
Author :
Publisher :
Page : 960 pages
File Size : 17,54 MB
Release : 1981
Category : Mechanics, Applied
ISBN :
Author :
Publisher :
Page : 652 pages
File Size : 25,23 MB
Release : 1984
Category : Beach erosion
ISBN :
Author : Liqin Zuo
Publisher : CRC Press
Page : 205 pages
File Size : 16,97 MB
Release : 2018-06-19
Category : Science
ISBN : 0429794037
The evolution and utilization of estuarine and coastal regions are greatly restricted by sediment problems. This thesis aims to better understand fine sediment transport under combined action of waves and currents, especially in the wave-current bottom boundary layer (BBL). Field observations, experimental data analysis, theoretical analysis and numerical models are employed. Silt-dominated sediments are sensitive to flow dynamics and the suspended sediment concentration (SSC) increase rapidly under strong flow dynamics. This research unveils several fundamental aspects of silty sediment, i.e., the criterion of the incipient motion, the SSC profiles and their phase-averaged parameterization in wave-dominated conditions. An expression for sediment incipient motion is proposed for silt-sand sediment under combined wave and current conditions. A process based intra-wave 1DV model for flow-sediment dynamics near the bed is developed in combined wave-current conditions. The high concentration layer (HCL) was simulated and sensitivity analysis was carried out by the 1DV model on factors that impact the SSC in the HCL. Finally, based on the 1DV model, the formulations of the mean SSC profile of silt-sand sediments in wave conditions were proposed. The developed approaches are expected to be applied in engineering practice and further simulation.