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Please use this identifier to cite or link to this item: http://ntour.ntou.edu.tw:8080/ir/handle/987654321/51945

Title: Numerical solutions of waves-current interactions by generalized finite difference method
Authors: C.M. Fan
C.N. Chu
B. Sarler
T.H. Li
Contributors: 國立臺灣海洋大學:河海工程學系
Keywords: Meshless numerical wave flume
Generalized finite difference method
Wave-current interactions
Coplanar current
Opposing current
Inclined bottom
Date: 2019-01
Issue Date: 2019-01-09T07:21:59Z
Publisher: Engineering Analysis with Boundary Elements
Abstract: Abstract: In this paper, a meshless numerical wave flume, based on the generalized finite difference method (GFDM), is adopted to accurately and efficiently simulate the interactions of water waves and current. The GFDM, a newly-developed meshless method, is truly free from mesh generation and numerical quadrature. The proposed meshless numerical wave flume is the combination of the GFDM, the second-order Runge–Kutta method, the semi-Lagrangian approach, the sponge layer and the ramping function. The problems of wave-current interactions in flumes with horizontal and inclined bottoms are accurately and stably investigated by the proposed meshless scheme, respectively. The changes of waveform can be obviously found, while the cases of coplanar, opposing and no currents are stably simulated. Besides, the distribution of steady current in the flume with inclined bottom, which is governed by an inverse Cauchy problem, is acquired by the GFDM in a stable manner. Numerical results of wave-current interactions are compared with other solutions to verify the accuracy of the proposed meshless scheme. Additionally, different parameters of the proposed meshless numerical scheme are examined to validate the consistency and stability of the proposed numerical wave flume for solutions of wave-current interactions.
URI: http://ntour.ntou.edu.tw:8080/ir/handle/987654321/51945
Appears in Collections:[河海工程學系] 期刊論文

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