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Dynamics of Vortex Structures in a Stratified Rotating Fluid

Atmospheric and Oceanographic Sciences Library Band 47

Mikhail A. Sokolovskiy, Jacques Verron

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Beschreibung

This book presents an extensive analysis of the dynamics of discrete and distributed baroclinic vortices in a multi-layer fluid that characterizes the main features of the large and mesoscales dynamics of the atmosphere and the ocean. It widely covers the case of hetonic situations as well as the case of intrathermocline vortices that are familiar in oceanographic and of recognized importance for heat and mass transfers. Extensive typology of such baroclinic eddies is made and analysed with the help of theoretical development and numerical computations. As a whole it gives an overview and synthesis of all the many situations that can be encountered based on the long history of the theory of vortex motion and on many new situations. It gives a renewed insight on the extraordinary richness of vortex dynamics and open the way for new theoretical, observational and experimental advances. This volume is of interest to experts in physical oceanography,  meteorology, hydrodynamics, dynamic systems, involved in theoretical, experimental and applied research and lecturers, post-graduate students, and students in these fields.

Produktdetails

Einband Taschenbuch
Seitenzahl 382
Erscheinungsdatum 01.10.2016
Sprache Englisch
ISBN 978-3-319-37564-9
Verlag Springer
Maße (L/B) 23,5/15,5 cm
Abbildungen 77 schwarzweisse Abbilmit 179 FarbabbildungenFarbabb.
Auflage Softcover reprint of the original 1st ed. 2014

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  • 1. The Introductory Chapter



    1.1  Introduction

    1.2  The mathematical introduction

    1.2.1  The derivation of potential vortex conservation equations

    1.2.2  Formal solution. Integral invariants

    1.2.3  Contour dynamics method

    1.2.4  Stationary axisymmetric solution

    1.2.5  An approach to studying the stability of a axisymmetric two-layer vortex

    1.2.6  The structure of simplest types of external field

    1.2.7  A limiting case of discrete vortices

    1.2.8  Phase portraits. Choreographies

    1.2.9  Three-layer model equations

      

    2. Dynamics of Discrete Vortices



    2.1  Two vortices in a two-layer fluid

    2.2  2A vortices in a two-layer fluid

    2.2.1  The case of arbitrary A

    2.2.2  Case A = 2

    2.2.2.1  Two hetons with zero total linear momentum and nonzero angular momentum

    2.2.2.2  Two hetons with nonzero total linear momentum and zero angular momentum

    2.2.2.3  Two hetons with zero total linear and angular momenta

    2.2.2.4  Vortex structures: warm heton–cold heton, two antihetons, two “horizontal” pairs

    2.3   A + 1 vortices in a two-layer fluid

    2.3.1  Vortex structures with zero total momentum at A ≥ 2 (free motion)

    2.3.2  Vortex structures with zero total momentum at A ≥ 2 (motion in an external field)

    2.3.2.1  Analysis of static states

    2.3.2.2  Stationary solutions at A = 2

    2.3.2.3  Analysis of optimal perturbation frequencies at A = 2

    2.3.2.4  Origination of chaos at A = 2

    2.3.3  The case of nonzero total momentum at A = 2

    2.3.3.1  Phase portraits in trilinear coordinates

    2.3.3.2  Analysis of steady states

    2.3.3.3  Classification of motions of triangular vortex structures: trajectories of absolute motion, choreographies

    2.3.3.4  Analysis of weakly perturbed tripolar collinear states

    2.3.3.5  Regular advection near stationary configurations

    2.3.3.6  Chaotic advection near stationary configurations

    2.4  Heton structures in a three-layer fluid



    3  Dynamics of Finite-core Vortices



    3.1   Studying the linear stability of a two-layer vortex

    3.1.1  A vortex with a vertical axis: two circular vortex patches

    3.1.1.1  Heton with vertical axis

    3.1.1.2  “Ballistic” propagation ; law of vortex domain boundary: application to deep convection in the ocean

    3.1.1.3  Analogy with A-symmetric structure of discrete hetons

    3.1.1.4  Noncompensated two-layer vortex

    3.1.2  Annular two-layer vortex: four circular vortex patches

    3.1.2.1  Studying the stability of rings

    3.1.2.2  Modeling the transformations of an oceanic ring into

    smaller vortex structures

    3.2  The impact of finite perturbations

    3.2.1  Heton with a tilted axis: two initially circular patches

    3.2.2  Stationary translation hetonic V-states

    3.2.3  Heton with a vertical axis: two initially elliptic vortex patches

    3.3  Interaction between two hetons

    3.3.1  Two hetons with vertical axes

    3.3.2  Heton with a vertical axis and heton with a tilted axis

    3.3.3  Two hetons with tilted axes, the case of zero total momentum

    3.3.4  Two hetons with tilted axes, the case of nonzero total momentum

    3.3.5  Interaction between a warm and a cold hetons

    3.4 The effect of external field on heton motion

    3.5  Vortex patch dynamics in a three-layer model

    3.5.1  Stability study of a three-layer vortex

    3.5.2  Modeling the motion of meddies

    3.5.2.1  Merging of two initially circular vortex patches

    3.5.2.2  Evolution of elliptic vortex patch

    3.5.2.3  On detecting lenses on oceanic surface

    3.5.2.4  On the effect of bottom topography on the motion of lenses

    3.5.2.5  Dynamics of medies in the flow over submerged hills

    3.5.3  Examples of interaction between three-layer vortices



    4  The Concluding Chapter



    4.1  Concluding remarks

    4.2  Outlook to heton problems

    4.3  Discussion



    Appendix A. E.J. Hopfinger. Experimental study of hetons

    Appendix B.  M.A. Sokolovskiy. In memory of my Teacher

    Index