A fully nonlinear numerical method for modeling wave-current interactions
DOI10.1016/j.jcp.2018.04.057zbMath1392.86033OpenAlexW2801935804WikidataQ129883814 ScholiaQ129883814MaRDI QIDQ725480
Qingwei Ma, Jinghua Wang, Shiqiang Yan
Publication date: 1 August 2018
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2018.04.057
wave-current interactionrandom seasenhanced spectral boundary integral methodfully nonlinear simulationhorizontally varying currentlarge scale modeling
PDEs in connection with fluid mechanics (35Q35) Hydrology, hydrography, oceanography (86A05) Applications to the sciences (65Z05) Boundary element methods for boundary value problems involving PDEs (65N38) PDEs in connection with geophysics (35Q86)
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Cites Work
- Dispersion equation for water waves with vorticity and Stokes waves on flows with counter-currents
- Rogue waves in the ocean
- Steady periodic water waves with constant vorticity: Regularity and local bifurcation
- An explicit method for the nonlinear interaction between water waves and variable and moving bottom topography
- Computation formulas by FFT of the nonlinear orbital velocity in three-dimensional surface wave fields
- CFD simulations of wave-current-body interactions including greenwater and wet deck slamming
- Nonlinear surface waves interacting with a linear shear current
- Fully nonlinear wave-current interactions and kinematics by a bEM-based numerical wave tank
- An efficient model for three-dimensional surface wave simulations. I: Free space problems
- An efficient model for three-dimensional surface wave simulations. II: Generation and absorption
- Long time interaction of envelope solitons and freak wave formations
- Three reasons for freak wave generation in the non-uniform current
- A fast method for fully nonlinear water-wave computations
- Nonlinear interactions between deep-water waves and currents
- Numerical techniques on improving computational efficiency of spectral boundary integral method
- Dynamics of Winds and Currents Coupled to Surface Waves
- Laboratory observations of wave evolution, modulation and blocking due to spatially varying opposing currents
- Interaction of finite-amplitude waves with vertically sheared current fields
- Effects of slowly varying depth and current on the evolution of a Stokes wavepacket
- The blockage of gravity and capillary waves by longer waves and currents
- Wave–current interactions: an experimental and numerical study. Part 2. Nonlinear waves
- Free surface waves on shear currents with non-uniform vorticity: third-order solutions
- Steady Deep-Water Waves on a Linear Shear Current
- The Benjamin-Feir instability of a deep-water Stokes wavepacket in the presence of a non-uniform medium
- A high-order spectral method for the study of nonlinear gravity waves
- Interaction of Water Waves and Currents
- On the chance of freak waves at sea
- Exact steady periodic water waves with vorticity
- A fully nonlinear Boussinesq model for surface waves. Part 2. Extension to O(kh)4
- The interaction of deep-water gravity waves and an annular current: linear theory
- The effect of non-uniformity of modulated wavepackets on the mechanism of Benjamin–Feir instability
- The current-modified nonlinear Schrödinger equation
- Reflection of oblique waves by currents: analytical solutions and their application to numerical computations
- Two-dimensional stability of finite-amplitude gravity waves on water of finite depth with constant vorticity
- Freak wave statistics on collinear currents
- The effect of non-linearities on statistical distributions in the theory of sea waves
- Experimental particle paths and drift velocity in steep waves at finite water depth
- Flow structure beneath rotational water waves with stagnation points
- Wavetrains in Inhomogeneous Moving Media
- Dynamics of crescent water wave patterns
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