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1 December 2014 Simulation of Seasonal Bathymetric Change at Haeundae Beach with Two Representative Wave Settings
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Abstract
Kim, H.; Jin, J.Y.; Jang, C.; Yoo, H.J., and Hwang, D.H., 2014. Simulation of seasonal bathymetric change at Haeundae Beach with two representative wave settings.Long-term shoreline position of Haeundae Beach has been quite stable notwithstanding seasonal oscillatory movement. Bathymetry around Haeundae Beach was surveyed on 7 August 2007 and 12 November 2007 by using an echo-sounder, while wave, tide, and tidal current were measured between the two survey days, so that bathymetric change at Haeundae Beach was obtained from the two surveys. According to the surveys the east part of the beach was eroded, and the west part of the beach was accreted. Measured waves from SSE, SE, ESE, E during the period were stronger than measured waves from S, SSW, SW, WSW. A numerical model system CST3D was adopted to reproduce the bathymetric change at Haeundae Beach during the period. Two representative wave settings are chosen for the period as a minimum number to represent the time-series of wave record, based on equivalent sediment flux concept contained in the CERC formula. Wave field, wave-induced force field, wave-induced current field, sediment transport field, and bathymetric change are computed from individual modules, SWAN, WIF, FLOW, SED in CST3D, respectively. Computed bathymetric change agrees reasonably well with measured one. It is believed that selection of two representative wave settings is useful for simulation of seasonal bathymetric change for fairly straight morphology like Haeundae. CST3D is thought to effectively describe overall seasonal sediment transport pattern and consequent bathymetric change at Haeundae Beach.
© 2014 Coastal Education and Research Foundation
Hyoseob Kim, Jae Youll Jin, Changhwan Jang, Ho Jun Yoo and Dae Hee Hwang "Simulation of Seasonal Bathymetric Change at Haeundae Beach with Two Representative Wave Settings," Journal of Coastal Research (JCR) 72(sp1), (1 December 2014). https://doi.org/10.2112/SI72-031.1
Received: 10 September 2014; Accepted: 27 October 2014; Published: 1 December 2014
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