Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments

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Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments. / Zhmur, Vladimir V. ; Belonenko, Tatyana V. ; Travkin, Vladimir S. ; Novoselova, Elena V. ; Harutyunyan , David A. ; Raj, Roshin P.

в: Journal of Marine Science and Engineering, Том 11, № 6, 1131, 27.05.2023.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

BibTeX

@article{ec4cccec1b9a45578d7d293b797d6121,

title = "Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments",

abstract = "The article discusses various aspects of the interaction of vortices with the barotropic flow. Vortex interaction with a flow results in rotation variants, nutational oscillations, and unlimited stretching of its core. The vortex remains in a localized formation, with the semi-axes of the ellipse experiencing fluctuations near an average value in the first two cases. In the third case, the vortex is significantly elongated, and its shape in the horizontal plane changes as follows: one axis of the ellipse increases, and the other decreases. In this case, the vortex, when viewed from above, stretches into a thread, while remaining ellipsoidal. These vortex formations are called filaments. The latter arise from initially almost circular vortices in the horizontal plane and represent structures with non-zero vorticity elongated in one direction. Here, we aim to study the energy transformation of a vortex during its evolution process, mainly due to changes in its shape by stretching. The energy evolution of a mesoscale vortex located in the Norwegian Sea is analyzed using GLORYS12V1 ocean reanalysis data to verify the theoretical conclusions. During the evolution, the vortex is found to transform from a round shape and becomes elongated, and after three weeks its longitudinal scale becomes 4 times larger than the transverse one. During the transformation of a vortex, the kinetic energy and available potential energy decrease respectively by 3 times and 1.7 times. Concurrently, the total energy of the vortex is found to decrease by 2.3 times. We argue that the stretching of vortices results in a loss of energy as well as its redistribution from mesoscale to submesoscale. The lost part of the energy returns to the flow and results in the occurrence of the reverse energy cascade phenomenon.",

keywords = "vortex, stretching, Kinetic energy, Available potential energy, GLORYS12v1, the Norwegian Sea",

author = "Zhmur, {Vladimir V.} and Belonenko, {Tatyana V.} and Travkin, {Vladimir S.} and Novoselova, {Elena V.} and Harutyunyan, {David A.} and Raj, {Roshin P.}",

note = "Zhmur, V.V.; Belonenko, T.V.; Travkin, V.S.; Novoselova, E.V.; Harutyunyan, D.A.; Raj, R.P. Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments. J. Mar. Sci. Eng. 2023, 11, 1131. https://doi.org/10.3390/jmse11061131",

year = "2023",

month = may,

day = "27",

language = "English",

volume = "11",

journal = "Journal of Marine Science and Engineering",

issn = "2077-1312",

publisher = "MDPI AG",

number = "6",

}

RIS

TY - JOUR

T1 - Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments

AU - Zhmur, Vladimir V.

AU - Belonenko, Tatyana V.

AU - Travkin, Vladimir S.

AU - Novoselova, Elena V.

AU - Harutyunyan , David A.

AU - Raj, Roshin P.

N1 - Zhmur, V.V.; Belonenko, T.V.; Travkin, V.S.; Novoselova, E.V.; Harutyunyan, D.A.; Raj, R.P. Changes in the Available Potential and Kinetic Energy of Mesoscale Vortices When They Are Stretched into Filaments. J. Mar. Sci. Eng. 2023, 11, 1131. https://doi.org/10.3390/jmse11061131

PY - 2023/5/27

Y1 - 2023/5/27

N2 - The article discusses various aspects of the interaction of vortices with the barotropic flow. Vortex interaction with a flow results in rotation variants, nutational oscillations, and unlimited stretching of its core. The vortex remains in a localized formation, with the semi-axes of the ellipse experiencing fluctuations near an average value in the first two cases. In the third case, the vortex is significantly elongated, and its shape in the horizontal plane changes as follows: one axis of the ellipse increases, and the other decreases. In this case, the vortex, when viewed from above, stretches into a thread, while remaining ellipsoidal. These vortex formations are called filaments. The latter arise from initially almost circular vortices in the horizontal plane and represent structures with non-zero vorticity elongated in one direction. Here, we aim to study the energy transformation of a vortex during its evolution process, mainly due to changes in its shape by stretching. The energy evolution of a mesoscale vortex located in the Norwegian Sea is analyzed using GLORYS12V1 ocean reanalysis data to verify the theoretical conclusions. During the evolution, the vortex is found to transform from a round shape and becomes elongated, and after three weeks its longitudinal scale becomes 4 times larger than the transverse one. During the transformation of a vortex, the kinetic energy and available potential energy decrease respectively by 3 times and 1.7 times. Concurrently, the total energy of the vortex is found to decrease by 2.3 times. We argue that the stretching of vortices results in a loss of energy as well as its redistribution from mesoscale to submesoscale. The lost part of the energy returns to the flow and results in the occurrence of the reverse energy cascade phenomenon.

AB - The article discusses various aspects of the interaction of vortices with the barotropic flow. Vortex interaction with a flow results in rotation variants, nutational oscillations, and unlimited stretching of its core. The vortex remains in a localized formation, with the semi-axes of the ellipse experiencing fluctuations near an average value in the first two cases. In the third case, the vortex is significantly elongated, and its shape in the horizontal plane changes as follows: one axis of the ellipse increases, and the other decreases. In this case, the vortex, when viewed from above, stretches into a thread, while remaining ellipsoidal. These vortex formations are called filaments. The latter arise from initially almost circular vortices in the horizontal plane and represent structures with non-zero vorticity elongated in one direction. Here, we aim to study the energy transformation of a vortex during its evolution process, mainly due to changes in its shape by stretching. The energy evolution of a mesoscale vortex located in the Norwegian Sea is analyzed using GLORYS12V1 ocean reanalysis data to verify the theoretical conclusions. During the evolution, the vortex is found to transform from a round shape and becomes elongated, and after three weeks its longitudinal scale becomes 4 times larger than the transverse one. During the transformation of a vortex, the kinetic energy and available potential energy decrease respectively by 3 times and 1.7 times. Concurrently, the total energy of the vortex is found to decrease by 2.3 times. We argue that the stretching of vortices results in a loss of energy as well as its redistribution from mesoscale to submesoscale. The lost part of the energy returns to the flow and results in the occurrence of the reverse energy cascade phenomenon.

KW - vortex

KW - stretching

KW - Kinetic energy

KW - Available potential energy

KW - GLORYS12v1

KW - the Norwegian Sea

M3 - Article

VL - 11

JO - Journal of Marine Science and Engineering

JF - Journal of Marine Science and Engineering

SN - 2077-1312

IS - 6

M1 - 1131

ER -

ID: 105363868