In this paper, the combined refraction-diffraction of plane momchromatic waves by a circular cylinder mounted on a conical shoal in an otherwise open sea of constant depth is solved analytically based on the mild-slope equaiton. At first, Hunt's approximate direct solution for the wave dispersion equation [Hunt, 1979] is used to transform the mild-slope equaiton with implicit coefficients into an eqaution with all coefficients being explicitly expressed. This equation is then solved analytically in terms of combined Fourier series and Taylor series. Comparision are made between the present method and the analytically solutions based on the linear shallow-water equation [Zhu and Zhang, 1996] and the Helmholtz equation [MacCamy and Fuchs, 1954] for long waves and short waves, respectively, and excellent agreements are obtained. For waves in intermediate water depth, comparisions are made with numerical results based on the mils-slope equation and an equally good quality of agreement is achieved. By varying the shoal size, it is found that the wave amplification normally enhances with the increase of shoal wave, the trapped waves by refraction in front of the island interact with the reflected waves and form the partial-standing waves there.

• 出版日期2007-12
• 单位四川大学; 水力学与山区河流开发保护国家重点实验室; 广西民族大学