Paper Info
Title
Numerical simulation of spectrum wave transformation and berthing stability in Jinhai Bay.
Abstract
The convention method of berthing stability study by physical scaled model was replaced by purely numerical model based on modified Boussinesq type wave equations in Jinhai Bay, Guangdong. Directional spectrum waves of mixed wind wave and surge wave was generated in pseudo three dimensional numerical wave basin. In front of vertical walls, typical reflection coefficient of 0.80 was introduced, and around the sloped breakwaters the reflection coefficients of 0.50∼0.60 were applied. The calculation domain was located in Da-Ya Bay, with directional mixed wave incoming from WSW (west-south-west). By purely numerical method, the berthing stability was studied in accordance with the Code of Hydrology for Sea Harbor, China ('the Code'). It is concluded the numerical model is of satisfactory accuracy and can be of engineering reference value in the design and planning of coastal structures and harbors. © 2012 IEEE.
Year
DOI
Venue
2012
10.1109/FSKD.2012.6234110
FSKD
Keywords
Field
DocType
berthing stability,boussinesq equations,breakwater,numercial model,spectrum wave,numerical simulation,reflection coefficient,ocean waves,spectrum,numerical method,wave equation,three dimensional,wind wave,stability analysis,china,hydrology,wave equations,numerical analysis,mathematical model,wind,computer aided software engineering,numerical stability,boussinesq equation
Wind wave,Computer simulation,Pattern recognition,Computer science,Reflection coefficient,Artificial intelligence,Surge,Wave equation,Numerical analysis,Geometry,Breakwater,Boussinesq approximation (water waves)
Conference
Volume
Issue
Citations 
null
null
0
PageRank 
References 
Authors
0.34
1
2
Name
Order
Citations
PageRank
Xi Li12212.44
Chen-Cheng Xi200.68