A numerical study of nonlinear energy fluxes due to wave-wave interactions Part 1. Methodology and basic results
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Publication:5753652
DOI10.1017/S002211209100157XzbMath0721.76010MaRDI QIDQ5753652
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Publication date: 1991
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
wave-wave interactionsequilibrium rangeBoltzmann integralsnonlinear energy transfer integralsNonlinear transfer
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Related Items (10)
Spectral evolution of weakly nonlinear random waves: kinetic description versus direct numerical simulations ⋮ Safe zone for phase-resolved simulation of interactions between waves and vertically sheared currents ⋮ Weak turbulent approach to the wind-generated gravity sea waves ⋮ Numerical verification of the weak turbulent model for swell evolution ⋮ Numerical analysis of a self-similar turbulent flow in Bose-Einstein condensates ⋮ The equilibrium range cascades of wind-generated waves ⋮ On weakly turbulent scaling of wind sea in simulations of fetch-limited growth ⋮ Kinetic equations in a third-generation spectral wave model ⋮ The structure of energy fluxes in wave turbulence ⋮ Numerical modeling of the constant flux spectra for surface gravity waves in a case of angular anisotropy
Cites Work
- On the non-linear energy transfer in a gravity-wave spectrum Part 1. General theory
- Spectral and statistical properties of the equilibrium range in wind-generated gravity waves
- On the nonlinear transfer of energy in the peak of a gravity-wave spectrum: a simplified model
- On the non-linear energy transfer in a gravity-wave spectrum. Part 3. Evaluation of the energy flux and swell-sea interaction for a Neumann spectrum
- On the non-linear energy transfer in a gravity wave spectrum Part 2. Conservation theorems; wave-particle analogy; irrevesibility
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