Wave-Current Propagation over a Frictional Topography 被引量：1

Wave-Current Propagation over a Frictional Topography

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摘要 In this paper the parabolic approximation model based on mild-slope equation is used to study wave propagation over a slowly varying and frictional topography under wave-current interaction. A governing equation considering the friction effects is derived by the authors for the first time. A simplified form for the rate of wave energy dissipation is presented on the basis of the wave-current action conservation equation and the bottom friction model given by Yoo and O'connor (1987). Examples reveal that the present computational method can be used for the calculation of wave elements for actual engineering projects with large water areas. In this paper the parabolic approximation model based on mild-slope equation is used to study wave propagation over a slowly varying and frictional topography under wave-current interaction. A governing equation considering the friction effects is derived by the authors for the first time. A simplified form for the rate of wave energy dissipation is presented on the basis of the wave-current action conservation equation and the bottom friction model given by Yoo and O'connor (1987). Examples reveal that the present computational method can be used for the calculation of wave elements for actual engineering projects with large water areas.

作者 Zuo, QH Ding, BC

机构地区 Nanjing Hydraul Res Inst

出处《China Ocean Engineering》 SCIE EI 1998年第4期417-426,共10页 中国海洋工程（英文版）

关键词 WAVE-CURRENT frictional topography refraction-diffraction wave-current frictional topography refraction-diffraction

分类号 TV139.2 [水利工程—水力学及河流动力学]

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参考文献10

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共引文献5

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同被引文献73

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China Ocean Engineering

1998年第4期

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