引用本文:倪云林,章哲文,唐志波,王晋宝,李德堂.波浪在沙质海床上传播波长变化[J].水利水运工程学报,2017,(3):51-55
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波浪在沙质海床上传播波长变化
倪云林1,2, 章哲文1, 唐志波1, 王晋宝1, 李德堂1
1.浙江海洋大学港航与交通运输工程学院,浙江舟山;2.大连理工大学海岸和近海工程国家重点实验室,辽宁大连
摘要:
沙质海床具有渗透性,会引起波浪的波长变化。基于线性波浪理论,采用Mendez提出的摄动方法,在已知波浪周期、水深和海床渗透系数的条件下,数值求解了渗透海床上的波浪色散方程,得到相应的波长,进而研究不同渗透系数和相对水深的沙质海床上波长的变化规律。结果表明,波浪在沙质海床上传播时的波长大于海床不可渗透的情况,且随着渗透系数的增大而增大;波浪在向岸传播过程中会发生浅水变形而波长减小,相比海床不可渗透的情况,沙质海床上的波长减小程度相对较小,这种现象随着相对水深的减小而愈加明显。因此,沙质海床的渗透性对波长的影响相当于1个“海床水深”Δh,它随渗透系数的增大和相对水深的减小而增大,当波浪在水深为h的沙质海床上传播时,其波长等于水深为h+Δh的不可渗透海床的波长。
关键词:  沙质海床  渗透性  色散方程  海床水深
DOI:
分类号:TV139.2
基金项目:国家海洋局海洋可再生能源专项资金资助项目(ZJME201 1BL04); 浙江海洋学院港航工程科研团队建设基金资助项目
Changes in wavelength of wave propagation over a sandy seabed
NI Yunlin1,2, ZHANG Zhewen1, TANG Zhibo1, WANG Jinbao1, LI Detang1
1.School of Port and Transportation Engineering, Zhejiang Ocean University, Zhoushan;2.State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, Dalian
Abstract:
A sandy seabed is permeable, and it will cause the changes in wavelength. Based on the linear wave theory, a perturbation method proposed by Mendez is applied to solving the dispersion equation for waves over the porous bottom numerically, obtaining the wavelength under the given conditions of wave period, water depth and permeability coefficients. And then the changes in wavelength of the wave propagation over the sandy seabeds with different permeability coefficients and water depths are studied. The research results indicate that: ① the wavelength on the sandy seabed is longer than that on an impermeable bottom, and it will increase with the increase of the permeability coefficients; ② when waves propagate toward the shore, the decreasing degree of the wavelength by wave shoaling on the sandy seabed is smaller compared with the impermeable bottom, and the differences are more remarkable in a shallower water depth. Therefore, the effect of the permeable sandy bottom on the wavelength is equivalent to a variable Δh, namely the water depth of the seabed, which increases with the increase in the permeability coefficients and decrease in the water depth. As a result, the wavelength of the wave propagation over the sandy seabed with a water depth h equals that over the impermeable bottom with a water depth h+Δh.
Key words:  sandy seabed  permeability  dispersion equation  water depth on seabed
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