Models of Internal Waves in the Presence of Currents

Alan Compelli; Rossen Ivanov

doi:10.21427/7kbd-2t53

Models of Internal Waves in the Presence of Currents

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Abstract

A fluid system consisting of two domains is examined. The system is considered as being bounded at the bottom and top by a flatbed and wave-free surface respectively. An internal wave propagating in one direction, driven by gravity, acts as a free common interface between the fluids. Various current profiles are considered. The Hamiltonian of the system is determined and expressed in terms of canonical wave-related variables. Limiting behaviour is examined and compared to that of other known models. The linearised equations as well as long-wave approximations are formulated. The presented models provide potential applications to modelling of internal geophysical waves.

Original language	English
Pages (from-to)	99-112
Journal	Pliska Studia Mathematica Bulgarica
Volume	26
DOIs	https://doi.org/10.21427/7kbd-2t53
Publication status	Published - 2016

Keywords

fluid system
internal wave
gravity
current profiles
Hamiltonian
canonical wave-related variables
linearised equations
long-wave approximations
internal geophysical waves

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AU - Compelli, Alan

AU - Ivanov, Rossen

PY - 2016

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N2 - A fluid system consisting of two domains is examined. The system is considered as being bounded at the bottom and top by a flatbed and wave-free surface respectively. An internal wave propagating in one direction, driven by gravity, acts as a free common interface between the fluids. Various current profiles are considered. The Hamiltonian of the system is determined and expressed in terms of canonical wave-related variables. Limiting behaviour is examined and compared to that of other known models. The linearised equations as well as long-wave approximations are formulated. The presented models provide potential applications to modelling of internal geophysical waves.

AB - A fluid system consisting of two domains is examined. The system is considered as being bounded at the bottom and top by a flatbed and wave-free surface respectively. An internal wave propagating in one direction, driven by gravity, acts as a free common interface between the fluids. Various current profiles are considered. The Hamiltonian of the system is determined and expressed in terms of canonical wave-related variables. Limiting behaviour is examined and compared to that of other known models. The linearised equations as well as long-wave approximations are formulated. The presented models provide potential applications to modelling of internal geophysical waves.

KW - fluid system

KW - internal wave

KW - gravity

KW - current profiles

KW - Hamiltonian

KW - canonical wave-related variables

KW - linearised equations

KW - long-wave approximations

KW - internal geophysical waves

U2 - 10.21427/7kbd-2t53

DO - 10.21427/7kbd-2t53

M3 - Article

VL - 26

SP - 99

EP - 112

JO - Pliska Studia Mathematica Bulgarica

JF - Pliska Studia Mathematica Bulgarica

ER -

Models of Internal Waves in the Presence of Currents

Abstract

Keywords

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