Nonlinear Dynamics of Rotating Shallow Water Methods and Advances

Nonlinear Dynamics of Rotating Shallow Water  Methods and Advances
Author: Anonim
Publsiher: Elsevier
Total Pages: 400
Release: 2007-04-03
ISBN 10: 9780080489469
ISBN 13: 008048946X
Language: EN, FR, DE, ES & NL

Nonlinear Dynamics of Rotating Shallow Water Methods and Advances Book Review:

The rotating shallow water (RSW) model is of wide use as a conceptual tool in geophysical fluid dynamics (GFD), because, in spite of its simplicity, it contains all essential ingredients of atmosphere and ocean dynamics at the synoptic scale, especially in its two- (or multi-) layer version. The book describes recent advances in understanding (in the framework of RSW and related models) of some fundamental GFD problems, such as existence of the slow manifold, dynamical splitting of fast (inertia-gravity waves) and slow (vortices, Rossby waves) motions, nonlinear geostrophic adjustment and wave emission, the role of essentially nonlinear wave phenomena. The specificity of the book is that analytical, numerical, and experimental approaches are presented together and complement each other. Special attention is paid on explaining the methodology, e.g. multiple time-scale asymptotic expansions, averaging and removal of resonances, in what concerns theory, high-resolution finite-volume schemes, in what concerns numerical simulations, and turntable experiments with stratified fluids, in what concerns laboratory simulations. A general introduction into GFD is given at the beginning to introduce the problematics for non-specialists. At the same time, recent new results on nonlinear geostrophic adjustment, nonlinear waves, and equatorial dynamics, including some exact results on the existence of the slow manifold, wave breaking, and nonlinear wave solutions are presented for the first time in a systematic manner. · Incorporates analytical, numerical and experimental approaches in the geophysical fluid dynamics context · Combination of essentials in GFD, of the description of analytical, numerical and experimental methods (tutorial part), and new results obtained by these methods (original part) · Provides the link between GFD and mechanics (averaging method, the method of normal forms); GFD and nonlinear physics (shocks, solitons, modons, anomalous transport, periodic nonlinear waves)

Fronts Waves and Vortices in Geophysical Flows

Fronts  Waves and Vortices in Geophysical Flows
Author: Jan-Bert Flor
Publsiher: Springer
Total Pages: 192
Release: 2010-06-01
ISBN 10: 364211587X
ISBN 13: 9783642115875
Language: EN, FR, DE, ES & NL

Fronts Waves and Vortices in Geophysical Flows Book Review:

Most well known structures in planetary atmospheres and the Earth’s oceans are jets or fronts interacting with vortices on a wide range of scales. The transition from one state to another, such as in unbalanced or adjustment flows, involves the generation of waves as well as the interaction of coherent structures with these waves. This book presents a fluid mechanics perspective to the dynamics of fronts and vortices and their interaction with waves in geophysical flows. It provides a basic physical background for modeling coherent structures in a geophysical context, and it gives essential information on advanced topics such as spontaneous wave emission and wavemomentum transfer in geophysical flows. Based on a set of lectures by leading specialists, this text is targeted at graduate students, researchers and engineers in geophysics and environmental fluid mechanics.

Geophysical Fluid Dynamics

Geophysical Fluid Dynamics
Author: Vladimir Zeitlin
Publsiher: Oxford University Press
Total Pages: 512
Release: 2018-02-15
ISBN 10: 0198804334
ISBN 13: 9780198804338
Language: EN, FR, DE, ES & NL

Geophysical Fluid Dynamics Book Review:

Geophysical fluid dynamics examines the dynamics of stratified and turbulent motion of fluids in the ocean and outer core, and of gases in the atmosphere. This book explains key notions and fundamental processes of the dynamics of large- and medium-scale atmospheric and oceanic motions from the unifying viewpoint of the rotating shallow water model. The model plays a distinguished role in geophysical fluid dynamics. It has been used for about a century for conceptual understanding of various phenomena, for elaboration of approaches and methods to be used later in more complete models, for development and testing of numerical codes, and for many other purposes. In spite of its simplicity, the model grasps essential features of the complete "primitive equations" models, being their vertically averaged version, and gives an intuitive representation and clear vision of principal dynamical processes. This book is a combination of a course on geophysical fluid dynamics (Part 1), with explanations and illustrations of fundamentals, and problems, as well as a more advanced treatise of a range of principal dynamical phenomena (Part 2), including recently arisen approaches and applications (Part 3). Mathematics and physics underlying dynamical phenomena are explained, with necessary demonstrations. Yet, an important goal of the book is to develop the reader's physical intuition and qualitative insights.

Dispersive Shallow Water Waves

Dispersive Shallow Water Waves
Author: Gayaz Khakimzyanov,Denys Dutykh,Zinaida Fedotova,Oleg Gusev
Publsiher: Springer Nature
Total Pages: 284
Release: 2020-09-15
ISBN 10: 3030462676
ISBN 13: 9783030462673
Language: EN, FR, DE, ES & NL

Dispersive Shallow Water Waves Book Review:

This monograph presents cutting-edge research on dispersive wave modelling, and the numerical methods used to simulate the propagation and generation of long surface water waves. Including both an overview of existing dispersive models, as well as recent breakthroughs, the authors maintain an ideal balance between theory and applications. From modelling tsunami waves to smaller scale coastal processes, this book will be an indispensable resource for those looking to be brought up-to-date in this active area of scientific research. Beginning with an introduction to various dispersive long wave models on the flat space, the authors establish a foundation on which readers can confidently approach more advanced mathematical models and numerical techniques. The first two chapters of the book cover modelling and numerical simulation over globally flat spaces, including adaptive moving grid methods along with the operator splitting approach, which was historically proposed at the Institute of Computational Technologies at Novosibirsk. Later chapters build on this to explore high-end mathematical modelling of the fluid flow over deformed and rotating spheres using the operator splitting approach. The appendices that follow further elaborate by providing valuable insight into long wave models based on the potential flow assumption, and modified intermediate weakly nonlinear weakly dispersive equations. Dispersive Shallow Water Waves will be a valuable resource for researchers studying theoretical or applied oceanography, nonlinear waves as well as those more broadly interested in free surface flow dynamics.

Vortex Structures in Fluid Dynamic Problems

Vortex Structures in Fluid Dynamic Problems
Author: Hector Perez-De-Tejada
Publsiher: BoD – Books on Demand
Total Pages: 280
Release: 2017-03-01
ISBN 10: 9535129430
ISBN 13: 9789535129431
Language: EN, FR, DE, ES & NL

Vortex Structures in Fluid Dynamic Problems Book Review:

The contents of the book cover topics on vortex dynamics in a variety of flow problems and describe observational measurements and their interpretation. The book contains 13 chapters that first include vortices in the earth and planetary sciences related to vortices in the Venus plasma wake and also on tropical cyclones and on rotating shallow water in the earth's atmosphere. Vortices in fluid problems include airplane wake vortices, vorticity evolution in free-shear flows, together with axisymmetric flows with swirl, as well as thermal conductivities in fluid layers. Vortices in relativistic fluids, in magnetic disks, solitons and vortices, and relaxation for point vortices were also examined. Other chapters describe conditions in a vortex bioreactor and in vortex yarn structures.

Waves in Flows

Waves in Flows
Author: Tomáš Bodnár,Giovanni P. Galdi,Šárka Nečasová
Publsiher: Springer Nature
Total Pages: 353
Release: 2021-04-29
ISBN 10: 3030678458
ISBN 13: 9783030678456
Language: EN, FR, DE, ES & NL

Waves in Flows Book Review:

This volume offers an overview of the area of waves in fluids and the role they play in the mathematical analysis and numerical simulation of fluid flows. Based on lectures given at the summer school “Waves in Flows”, held in Prague from August 27-31, 2018, chapters are written by renowned experts in their respective fields. Featuring an accessible and flexible presentation, readers will be motivated to broaden their perspectives on the interconnectedness of mathematics and physics. A wide range of topics are presented, working from mathematical modelling to environmental, biomedical, and industrial applications. Specific topics covered include: Equatorial wave–current interactions Water–wave problems Gravity wave propagation Flow–acoustic interactions Waves in Flows will appeal to graduate students and researchers in both mathematics and physics. Because of the applications presented, it will also be of interest to engineers working on environmental and industrial issues.

Dynamics of the Equatorial Ocean

Dynamics of the Equatorial Ocean
Author: John P. Boyd
Publsiher: Springer
Total Pages: 517
Release: 2017-09-25
ISBN 10: 3662554763
ISBN 13: 9783662554760
Language: EN, FR, DE, ES & NL

Dynamics of the Equatorial Ocean Book Review:

This book is the first comprehensive introduction to the theory of equatorially-confined waves and currents in the ocean. Among the topics treated are inertial and shear instabilities, wave generation by coastal reflection, semiannual and annual cycles in the tropic sea, transient equatorial waves, vertically-propagating beams, equatorial Ekman layers, the Yoshida jet model, generation of coastal Kelvin waves from equatorial waves by reflection, Rossby solitary waves, and Kelvin frontogenesis. A series of appendices on midlatitude theories for waves, jets and wave reflections add further material to assist the reader in understanding the differences between the same phenomenon in the equatorial zone versus higher latitudes.

Nonlinear Topics in Ocean Physics

Nonlinear Topics in Ocean Physics
Author: A.R. Osborne
Publsiher: Elsevier
Total Pages: 1032
Release: 1991-07-04
ISBN 10: 0444597824
ISBN 13: 9780444597823
Language: EN, FR, DE, ES & NL

Nonlinear Topics in Ocean Physics Book Review:

The main fields presented at this school were mesoscale and large scale flows, and nonlinear wave dynamics. The resulting proceedings present the latest developments in these fields.

Handbook of Geomathematics

Handbook of Geomathematics
Author: Willi Freeden,M. Zuhair Nashed,Thomas Sonar
Publsiher: Springer Science & Business Media
Total Pages: 612
Release: 2010-08-13
ISBN 10: 364201545X
ISBN 13: 9783642015458
Language: EN, FR, DE, ES & NL

Handbook of Geomathematics Book Review:

During the last three decades geosciences and geo-engineering were influenced by two essential scenarios: First, the technological progress has changed completely the observational and measurement techniques. Modern high speed computers and satellite based techniques are entering more and more all geodisciplines. Second, there is a growing public concern about the future of our planet, its climate, its environment, and about an expected shortage of natural resources. Obviously, both aspects, viz. efficient strategies of protection against threats of a changing Earth and the exceptional situation of getting terrestrial, airborne as well as spaceborne data of better and better quality explain the strong need of new mathematical structures, tools, and methods. Mathematics concerned with geoscientific problems, i.e., Geomathematics, is becoming increasingly important. The ‘Handbook Geomathematics’ as a central reference work in this area comprises the following scientific fields: (I) observational and measurement key technologies (II) modelling of the system Earth (geosphere, cryosphere, hydrosphere, atmosphere, biosphere) (III) analytic, algebraic, and operator-theoretic methods (IV) statistical and stochastic methods (V) computational and numerical analysis methods (VI) historical background and future perspectives.

Handbook of Differential Equations Evolutionary Equations

Handbook of Differential Equations  Evolutionary Equations
Author: C.M. Dafermos,Milan Pokorny
Publsiher: Elsevier
Total Pages: 534
Release: 2009-04-29
ISBN 10: 9780080932590
ISBN 13: 0080932592
Language: EN, FR, DE, ES & NL

Handbook of Differential Equations Evolutionary Equations Book Review:

Handbook of Differential Equations: Evolutionary Equations is the last text of a five-volume reference in mathematics and methodology. This volume follows the format set by the preceding volumes, presenting numerous contributions that reflect the nature of the area of evolutionary partial differential equations. The book is comprised of five chapters that feature the following: • A thorough discussion of the shallow-equations theory, which is used as a model for water waves in rivers, lakes and oceans. It covers the issues of modeling, analysis and applications. • Evaluation of the singular limits of reaction-diffusion systems, where the reaction is fast compared to the other processes; and applications that range from the theory of the evolution of certain biological processes to the phenomena of Turing and cross-diffusion instability • Detailed discussion of numerous problems arising from nonlinear optics, at the high-frequency and high-intensity regime • Geometric and diffractive optics, including wave interactions • Presentation of the issues of existence, blow-up and asymptotic stability of solutions, from the equations of solutions to the equations of linear and non-linear thermoelasticity • Answers to questions about unique space, such as continuation and backward uniqueness for linear second-order parabolic equations. Research mathematicians, mathematics lecturers and instructors, and academic students will find this book invaluable. - Review of new results in the area - Continuation of previous volumes in the handbook series covering evolutionary PDEs - New content coverage of DE applications

Nonlinear Dynamics and Statistical Theories for Basic Geophysical Flows

Nonlinear Dynamics and Statistical Theories for Basic Geophysical Flows
Author: Andrew Majda,Xiaoming Wang
Publsiher: Cambridge University Press
Total Pages: 135
Release: 2006-05-11
ISBN 10: 1139452274
ISBN 13: 9781139452274
Language: EN, FR, DE, ES & NL

Nonlinear Dynamics and Statistical Theories for Basic Geophysical Flows Book Review:

The general area of geophysical fluid mechanics is truly interdisciplinary. Now ideas from statistical physics are being applied in novel ways to inhomogeneous complex systems such as atmospheres and oceans. In this book, the basic ideas of geophysics, probability theory, information theory, nonlinear dynamics and equilibrium statistical mechanics are introduced and applied to large time-selective decay, the effect of large scale forcing, nonlinear stability, fluid flow on a sphere and Jupiter's Great Red Spot. The book is the first to adopt this approach and it contains many recent ideas and results. Its audience ranges from graduate students and researchers in both applied mathematics and the geophysical sciences. It illustrates the richness of the interplay of mathematical analysis, qualitative models and numerical simulations which combine in the emerging area of computational science.

IUTAM Symposium on Turbulence in the Atmosphere and Oceans

IUTAM Symposium on Turbulence in the Atmosphere and Oceans
Author: David Dritschel
Publsiher: Springer Science & Business Media
Total Pages: 298
Release: 2010-12-09
ISBN 10: 9400703600
ISBN 13: 9789400703605
Language: EN, FR, DE, ES & NL

IUTAM Symposium on Turbulence in the Atmosphere and Oceans Book Review:

The text of the Persian poet Rum ̄ ̄ ?, written some eight centuries ago, and reproduced at the beginning of this book is still relevant to many of our pursuits of knowledge, not least of turbulence. The text illustrates the inability people have in seeing the whole thing, the ‘big picture’. Everybody looks into the problem from his/her vi- point, and that leads to disagreement and controversy. If we could see the whole thing, our understanding would become complete and there would be no cont- versy. The turbulent motion of the atmosphere and oceans, at the heart of the observed general circulation, is undoubtedly very complex and dif?cult to understand in its entirety. Even ‘bare’ turbulence, without rotation and strati?cation whose effects are paramount in the atmosphere and oceans, still poses great fundamental ch- lenges for understanding after a century of research. Rotating strati?ed turbulence is a relatively new research topic. It is also far richer, exhibiting a host of distinct wave types interacting in a complicated and often subtle way with long-lived - herent structures such as jets or currents and vortices. All of this is tied together by basic ?uid-dynamical nonlinearity, and this gives rise to a multitude of phen- ena: spontaneous wave emission, wave-induced transport, both direct and inverse energy scale cascades, lateral and vertical anisotropy, fronts and transport barriers, anomalous transport in coherent vortices, and a very wide range of dynamical and thermodynamical instabilities.

Physical and Mathematical Modeling of Earth and Environment Processes

Physical and Mathematical Modeling of Earth and Environment Processes
Author: V. I. Karev
Publsiher: Springer Nature
Total Pages: 135
Release: 2022
ISBN 10: 3030995046
ISBN 13: 9783030995041
Language: EN, FR, DE, ES & NL

Physical and Mathematical Modeling of Earth and Environment Processes Book Review:

Rotating Shallow Water

Rotating Shallow Water
Author: Alana McKenzie
Publsiher: Unknown
Total Pages: 168
Release: 2007
ISBN 10: 1928374650XXX
ISBN 13: OCLC:793011721
Language: EN, FR, DE, ES & NL

Rotating Shallow Water Book Review:

Rotating shallow water is traditionally the first model encountered in the study of geophysical fluid dynamics. Its simplicity and applicability at large scales make it a favourable starting point for understanding midlatitude atmospheric behaviour. The linearized model reveals two principal dynamical features - fast time-scale wave disturbances, and slow time-scale balanced flow. Textbook analysis typically includes linear wave properties, and the leading order balanced dynamics of quasigeostrophy. We seek to further understand the successes and limitations of rotating shallow water in modelling geophysical fluid dynamics. In this study, nonlinear wave dynamics are restricted to uniform potential vorticity. This reduced set of equations enables the computational analysis of nonlinear waves, devoid of balanced dynamics. Additionally, balanced dynamics are investigated beyond quasigeostrophy to include small Rossby number corrections. As anticipated, an asymmetry between cyclone and anticyclone vortices emerges; the biases are consistent with similar models, and contradict atmospheric behaviour.

Introduction to Turbulent Transfer of Particles Temperature and Magnetic Fields

Introduction to Turbulent Transfer of Particles  Temperature and Magnetic Fields
Author: Igor Rogachevskii
Publsiher: Cambridge University Press
Total Pages: 300
Release: 2021-08-05
ISBN 10: 1316518604
ISBN 13: 9781316518601
Language: EN, FR, DE, ES & NL

Introduction to Turbulent Transfer of Particles Temperature and Magnetic Fields Book Review:

Introducing key concepts in turbulent transport with an overview of analytical and statistical tools to advanced graduates and researchers.

Modeling Atmospheric and Oceanic Flows

Modeling Atmospheric and Oceanic Flows
Author: Thomas von Larcher,Paul D. Williams
Publsiher: John Wiley & Sons
Total Pages: 368
Release: 2014-10-30
ISBN 10: 1118855922
ISBN 13: 9781118855928
Language: EN, FR, DE, ES & NL

Modeling Atmospheric and Oceanic Flows Book Review:

Modeling Atmospheric and Oceanic Flows: Insights from Laboratory Experiments and Numerical Simulations provides a broad overview of recent progress in using laboratory experiments and numerical simulations to model atmospheric and oceanic fluid motions. This volume not only surveys novel research topics in laboratory experimentation, but also highlights recent developments in the corresponding computational simulations. As computing power grows exponentially and better numerical codes are developed, the interplay between numerical simulations and laboratory experiments is gaining paramount importance within the scientific community. The lessons learnt from the laboratory–model comparisons in this volume will act as a source of inspiration for the next generation of experiments and simulations. Volume highlights include: Topics pertaining to atmospheric science, climate physics, physical oceanography, marine geology and geophysics Overview of the most advanced experimental and computational research in geophysics Recent developments in numerical simulations of atmospheric and oceanic fluid motion Unique comparative analysis of the experimental and numerical approaches to modeling fluid flow Modeling Atmospheric and Oceanic Flows will be a valuable resource for graduate students, researchers, and professionals in the fields of geophysics, atmospheric sciences, oceanography, climate science, hydrology, and experimental geosciences.

Nonlinear Dynamics And Chaos Proceedings Of The Fourth Physics Summer School

Nonlinear Dynamics And Chaos  Proceedings Of The Fourth Physics Summer School
Author: Dewar Robert L,Henry B I
Publsiher: World Scientific
Total Pages: 364
Release: 1992-01-24
ISBN 10: 9814555738
ISBN 13: 9789814555739
Language: EN, FR, DE, ES & NL

Nonlinear Dynamics And Chaos Proceedings Of The Fourth Physics Summer School Book Review:

The importance of equational axioms emerged initially with the axiomatic approach to Boolean algebras, groups, and rings, and later in lattices. This unique research monograph systematically presents minimal equational axiom-systems for various lattice-related algebras, regardless of whether they are given in terms of “join and meet” or other types of operations such as ternary operations. Each of the axiom-systems is coded in a handy way so that it is easy to follow the natural connection among the various axioms and to understand how to combine them to form new axiom systems.A new topic in this book is the characterization of Boolean algebras within the class of all uniquely complemented lattices. Here, the celebrated problem of E V Huntington is addressed, which — according to G Gratzer, a leading expert in modern lattice theory — is one of the two problems that shaped a century of research in lattice theory. Among other things, it is shown that there are infinitely many non-modular lattice identities that force a uniquely complemented lattice to be Boolean, thus providing several new axiom systems for Boolean algebras within the class of all uniquely complemented lattices. Finally, a few related lines of research are sketched, in the form of appendices, including one by Dr Willian McCune of the University of New Mexico, on applications of modern theorem-proving to the equational theory of lattices.

Nonlinear Processes in Geophysical Fluid Dynamics

Nonlinear Processes in Geophysical Fluid Dynamics
Author: O.U. Velasco Fuentes,J. Sheinbaum,J. Ochoa
Publsiher: Springer Science & Business Media
Total Pages: 376
Release: 2011-06-27
ISBN 10: 9401000743
ISBN 13: 9789401000741
Language: EN, FR, DE, ES & NL

Nonlinear Processes in Geophysical Fluid Dynamics Book Review:

A Tribute to the Scientific Work of Pedro Ripa

Introduction to Nonlinear Dynamics for Physicists

Introduction to Nonlinear Dynamics for Physicists
Author: H. D. I. Abarbanel,M. I. Rabinovich,Mikhael M. Sushchik
Publsiher: World Scientific
Total Pages: 158
Release: 1993
ISBN 10: 9789810214104
ISBN 13: 9810214103
Language: EN, FR, DE, ES & NL

Introduction to Nonlinear Dynamics for Physicists Book Review:

This series of lectures aims to address three main questions that anyone interested in the study of nonlinear dynamics should ask and ponder over. What is nonlinear dynamics and how does it differ from linear dynamics which permeates all familiar textbooks? Why should the physicist study nonlinear systems and leave the comfortable territory of linearity? How can one progress in the study of nonlinear systems both in the analysis of these systems and in learning about new systems from observing their experimental behavior? While it is impossible to answer these questions in the finest detail, this series of lectures nonetheless successfully points the way for the interested reader. Other useful problems have also been incorporated as a study guide. By presenting both substantial qualitative information about phenomena in nonlinear systems and at the same time sufficient quantitative material, the author hopes that readers would learn how to progress on their own in the study of such similar material hereon.

Applications of Chaos and Nonlinear Dynamics in Science and Engineering Vol 3

Applications of Chaos and Nonlinear Dynamics in Science and Engineering   Vol  3
Author: Santo Banerjee,Lamberto Rondoni
Publsiher: Springer
Total Pages: 296
Release: 2013-06-12
ISBN 10: 3642340172
ISBN 13: 9783642340178
Language: EN, FR, DE, ES & NL

Applications of Chaos and Nonlinear Dynamics in Science and Engineering Vol 3 Book Review:

Chaos and nonlinear dynamics initially developed as a new emergent field with its foundation in physics and applied mathematics. The highly generic, interdisciplinary quality of the insights gained in the last few decades has spawned myriad applications in almost all branches of science and technology—and even well beyond. Wherever quantitative modeling and analysis of complex, nonlinear phenomena is required, chaos theory and its methods can play a key role. This third volume concentrates on reviewing further relevant contemporary applications of chaotic nonlinear systems as they apply to the various cutting-edge branches of engineering. This encompasses, but is not limited to, topics such fluctuation relations and chaotic dynamics in physics, fractals and their applications in epileptic seizures, as well as chaos synchronization. Featuring contributions from active and leading research groups, this collection is ideal both as a reference and as a ‘recipe book’ full of tried and tested, successful engineering applications.