WATER WAVE SIMULATION IN CURVILINEAR COORDINATES USING A TIME-DEPENDENT MILD SLOPE EQUATION |
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| Authors: | TONG Fei-fei SHEN Yong-ming TANG Jun CUI Lei |
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| Affiliation: | [1]State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, Dalian 116023,China [2]School of Civil and Resource Engineering, The University of Western Australia, Crawley, WA 6009, Australia |
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| Abstract: | The purpose of this article is to model the detailed progress of wave propagation in curvilinear coordinates with an effective time-dependent mild slope equation. This was achieved in the following approach, firstly deriving the numerical model of the equation, i.e., Copeland's hyperbolic mild-slope equation, in orthogonal curvilinear coordinates based on principal of coordinate transformation, and then finding the numerical solution of the transformed model by use of the Alternative Directions Implicit (ADI) method with a space-staggered grid. To test the curvilinear model, two cases of a channel with varying cross section and a semi-circular channel were studied with corresponding analytical solutions. The model was further investigated through a numerical simulation in Ponce de Leon Inlet, USA. Good agreement is reached and therefore, the use of the present model is valid to calculate the progress of wave propagation in areas with curved shorelines, nearshore breakwaters and other complicated geometries. |
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| Keywords: | curvilinear coordinates mild slope equation water wave analytical numerical modeling |
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