Coastal Sediments '87: Proceedings of a Specialty Conference on Advances in Understanding of Coastal Sediment Processes, New Orleans, Louisiana, May 12-14, 1987, Volume 1Nicholas C. Kraus |
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Page 106
... tide effects . A nodal point off the Rappahannock River divided higher and lower spring tide turbidity to the south and north respectively ( Figure 12 ) , suggesting that the Rappahannock River is the northern limit of spring tide ...
... tide effects . A nodal point off the Rappahannock River divided higher and lower spring tide turbidity to the south and north respectively ( Figure 12 ) , suggesting that the Rappahannock River is the northern limit of spring tide ...
Page 111
... for Tidal Phases During Spring Tide . Spring tide turbidity is above average for ebb tide , while for flood tide it is similar to non - spring tide conditions . S S Depth ( m ) Less Than : n = 22 SEDIMENT RESUSPENSION PROCESSES 111.
... for Tidal Phases During Spring Tide . Spring tide turbidity is above average for ebb tide , while for flood tide it is similar to non - spring tide conditions . S S Depth ( m ) Less Than : n = 22 SEDIMENT RESUSPENSION PROCESSES 111.
Page 936
... tide ranging from low tide ( -0.06 m ) to high tide ( +0.91 m ) . The vertical location of the symbols corresponds to the tidal elevation . The tidal variation of the shorebreak tracks the foreshore slope very well , although the points ...
... tide ranging from low tide ( -0.06 m ) to high tide ( +0.91 m ) . The vertical location of the symbols corresponds to the tidal elevation . The tidal variation of the shorebreak tracks the foreshore slope very well , although the points ...
Contents
CrossShore Transport Mechanisms on the Shore Face | 25 |
Surficial Sediments and Late Quaternary Sedimentary Framework of | 26 |
Transport of Suspended Sediment in Very Rough Channels | 41 |
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acoustic analysis approximately ASCE average bathymetry beach profile bed load bottom boundary layer calculated Chesapeake Bay coast Coastal Engineering Coastal Sediment coefficient computed cross-shore current meters density deposition developed distribution downdrift dune effects elevation equation erosion estimate experiments fence field flow fluid foredune frequency groin hindcast incident wave infragravity initial island laboratory littoral longshore current longshore sediment transport longshore transport measured motion nearshore Norderney observed obtained offshore onshore oscillatory parameter particle period porosity predicted processes Research resuspension ripple samples sand fences sand transport Sapin SBDs scour seawall seaward sediment concentration sediment transport rate sensor shear stress shore shoreface shoreline change slope storm structure surf beat surf zone surface surveys suspended sediment tidal tide tracer trap turbulence U.S. Army updrift values vertical water depth wave conditions wave height waves and currents wind