Analysis of coastal sediment transport processes from Wrightsville Beach to Fort Fisher, North Carolina /


Autoria(s): Winton, T. C.; Crane, J. D.; Powell, G. M.; Chou, I. B.; Environmental Science and Engineering, Inc.; Coastal Engineering Research Center (U.S.)
Resumo

A comprehensive engineering analysis of the coastal sediment transport processes along a 42-kilometer segment of the North Carolina shoreline from Wrightsville Beach to Fort Fisher is presented. Included in the analysis is an interpretation of the littoral processes, longshore transport, and the behavior and success of beach nourishment projects at Wrightsville Beach and Carolina Beach, North Carolina. The historical position of the MLW, MSL, and MHW contours, relative to a fixed base line, is plotted for the period between 1964 and 1975. An equivalent volumetric erosion or accretion between successive surveys is determined by multiplying the average excursion distance of the contours by a constant of proportionality. The plots of excursion distance versus time for the MLW, MSL, and MHW contours also show the time response of the beach fills. This response is described by a mathematical function. The alongshore components of wave-induced energy flux are also determined within the study area through wave refraction analysis. This information, together with the information on volumetric change, is used in a sediment budget analysis to determine the coefficient of alongshore sediment transport and the inlet trapping characteristics. (Author).

Contract no.: DACW 72-79-C-0001.

"June 1981."

"Environmental Science and Engineering, Inc."--Report documentation page.

Cover title.

Includes bibliographical references (pages 96-97).

A comprehensive engineering analysis of the coastal sediment transport processes along a 42-kilometer segment of the North Carolina shoreline from Wrightsville Beach to Fort Fisher is presented. Included in the analysis is an interpretation of the littoral processes, longshore transport, and the behavior and success of beach nourishment projects at Wrightsville Beach and Carolina Beach, North Carolina. The historical position of the MLW, MSL, and MHW contours, relative to a fixed base line, is plotted for the period between 1964 and 1975. An equivalent volumetric erosion or accretion between successive surveys is determined by multiplying the average excursion distance of the contours by a constant of proportionality. The plots of excursion distance versus time for the MLW, MSL, and MHW contours also show the time response of the beach fills. This response is described by a mathematical function. The alongshore components of wave-induced energy flux are also determined within the study area through wave refraction analysis. This information, together with the information on volumetric change, is used in a sediment budget analysis to determine the coefficient of alongshore sediment transport and the inlet trapping characteristics. (Author).

Mode of access: Internet.

Identificador

http://hdl.handle.net/2027/mdp.39015095033273

Idioma(s)

eng

Direitos

APPROVED FOR PUBLIC RELEASE.

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Palavras-Chave #Civil Engineering. #Physical and Dynamic Oceanography. #Sediment transport. #Coastal engineering. #Filling. #Sediments. #North carolina. #Profiles. #Variations. #Sand. #Performance(engineering) #Ocean waves. #Beaches. #Sediment transport. #Coastal engineering #Sediment transport #LPN-CERC-F31232 #Beach fill #Longshore sediment transport
Tipo

text