General solution for linear 2D anisotropic surface gravity water waves on uniform current

IF 4.2 2区 工程技术 Q1 ENGINEERING, CIVIL
David M. Kouskoulas
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引用次数: 0

Abstract

Measuring and modeling ocean waves is a routine task for oceanographers and marine engineers. Accounting for current effects on waves is less common; however, such effects can be non-trivial, particularly for strong currents. Recent research has also found that currents are increasing with global temperatures. Thus, accounting for currents is of potential importance to a growing subset of real-world environments. One significant impact of currents is their modification of dispersion. It is known that, in contrast to dispersion without current, wave–current dispersion is multivalued and anisotropic, meaning it varies with direction and can yield multiple solutions for the same frequency. Strictly speaking, a complete analysis ought to account for all dispersion solutions. This study presents a general wave field solution for linear steady-state two-dimensional surface gravity waves on current. In contrast to existing formulations, it accounts for the complete set of dispersion solutions. The multiple solutions correspond to linearly independent (same frequency) spatial modes with no analogy in models without current. To fully determine the complete temporal and spatial features of a wave field, one must determine the amplitudes of all spatial modes. This can be achieved through the solution of an inverse problem, provided one has sufficient initial conditions. The significance of accounting for all spatial modes is demonstrated through examples. It is shown that a single time-series measurement is insufficient for determining the spatial features of a monochromatic (single frequency) wave. Rather, additional spatial information must be introduced to render the problem well-posed. The theory and methodology presented can be used to improve wave models and measurements.

匀速水流上线性二维各向异性表面重力水波的通解
测量和模拟海浪是海洋学家和海洋工程师的日常工作。然而,考虑海流对波浪的影响并不常见;这种影响可能并不简单,尤其是对强海流而言。最近的研究还发现,洋流随着全球气温的升高而增加。因此,考虑海流对现实世界中越来越多的环境具有潜在的重要性。洋流的一个重要影响是改变散布。众所周知,与没有海流的色散不同,波流色散是多值和各向异性的,这意味着它随方向而变化,并可对同一频率产生多个解。严格来说,完整的分析应该考虑到所有色散解。本研究提出了水流上线性稳态二维表面重力波的一般波场解法。与现有公式相比,它考虑了完整的频散解。多解对应于线性独立(频率相同)的空间模式,在无海流的模型中没有类比性。要完全确定波场的完整时空特征,必须确定所有空间模式的振幅。只要有足够的初始条件,就可以通过求解逆问题来实现这一点。我们将通过实例来说明考虑所有空间模式的重要性。例子表明,单一的时间序列测量不足以确定单色(单一频率)波的空间特征。相反,必须引入额外的空间信息,才能使问题得到很好的解决。所介绍的理论和方法可用于改进波浪模型和测量。
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来源期刊
Coastal Engineering
Coastal Engineering 工程技术-工程:大洋
CiteScore
9.20
自引率
13.60%
发文量
0
审稿时长
3.5 months
期刊介绍: Coastal Engineering is an international medium for coastal engineers and scientists. Combining practical applications with modern technological and scientific approaches, such as mathematical and numerical modelling, laboratory and field observations and experiments, it publishes fundamental studies as well as case studies on the following aspects of coastal, harbour and offshore engineering: waves, currents and sediment transport; coastal, estuarine and offshore morphology; technical and functional design of coastal and harbour structures; morphological and environmental impact of coastal, harbour and offshore structures.
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