在可渗透底部的两层流体中,水波与薄穿孔屏障相互作用的数学研究

IF 1.5 4区 工程技术 Q3 ENGINEERING, MARINE
Koushik Kanti Barman, S. Bora
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引用次数: 0

摘要

本文研究了浸没界面穿透穿孔屏障对两层流体流过可渗透底的影响。我们研究了斜波散射、捕获和辐射,这是由于结构聚焦于底部渗透率。在分析死水现象时考虑了底部渗透率的影响,发现底部渗透率对界面波的影响较大。采用匹配特征函数展开法和最小二乘法计算各种水动力系数。推导了散射情况下的波能同一性关系,计算了势垒引起的相关能量损失。为了获得最大的波耗散,提出了一个理想的孔效应参数作为考虑,观察到孔效应参数值越大,可行压力分布越小。与先前结果的良好比较证明了目前的半分析方法是正确的。此外,能量同一性项的验证有助于验证计算结果。此外,通过考虑刚性壁的反射系数来研究受限区域中的波捕获。在考虑其慢动作的同时,进一步考虑薄穿孔屏障模型来考察辐射方面。对于不同的势垒多孔效应参数,研究了辐射势的幅值比,清楚地观察到,在自由表面和界面传播模式下,较高的频率显著降低了辐射势的幅值。通过研究基本的水动力系数,即附加质量和阻尼系数,分析了穿孔屏障的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A mathematical study of water wave interaction with a thin perforated barrier in a two-layer fluid over a permeable bottom
This article studies the impact of a submerged interface-piercing perforated barrier in a two-layer fluid flowing over a permeable bottom. We investigate oblique wave scattering, trapping and radiation due to the structure focusing on the bottom permeability. The dead water phenomenon is analysed with the consideration of the bottom permeability, which results in a higher variation of the interfacial wave due to the bottom permeability. The matched eigenfunction expansion method and the least square technique are used to calculate various hydrodynamic coefficients. Wave energy identity relation is derived for the scattering scenario, and the associated energy loss due to the barrier is calculated. In order to attain the maximum wave dissipation, an ideal porous-effect parameter of the barrier is proposed for consideration, and it is observed that larger values of porous-effect parameter result in the lowest feasible pressure distribution. A good comparison with a prior result justifies the current semi-analytical procedure. Furthermore, the verification of the energy-identity terms aid in the validation of the computed results. Additionally, wave trapping in a confined region is examined by investigating reflection coefficients by considering a rigid wall. The thin perforated barrier model is further considered for examining the radiation aspect while considering its slow motion. For various porous-effect parameters of the barrier, the amplitude ratio of the radiated potential is investigated, and it is clearly observed that higher frequency significantly lowers the amplitude for both free surface and interfacial propagating modes. The impact of the perforated barrier is analysed by investigating the essential hydrodynamic coefficients, namely, added mass and damping coefficient.
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来源期刊
CiteScore
3.90
自引率
11.10%
发文量
77
审稿时长
>12 weeks
期刊介绍: The Journal of Engineering for the Maritime Environment is concerned with the design, production and operation of engineering artefacts for the maritime environment. The journal straddles the traditional boundaries of naval architecture, marine engineering, offshore/ocean engineering, coastal engineering and port engineering.
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