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Books on the topic 'Geophysical and environmental fluid flows'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

R, Grimshaw, ed. Environmental stratified flows. Boston: Kluwer Academic Publishers, 2002.

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2

Bernard, Guerts, Clercx H. J. H, and Uijttewaal Wim S. J, eds. Particle-laden flow: From geophysical to Kolmogorov scales. Dordrecht: Springer, 2007.

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3

B, Weiss J., and Provenzale A, eds. Transport and mixing in geophysical flows. Berlin: Springer, 2008.

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4

Kantha, L. H. Small scale processes in geophysical fluid flows. San Diego: Academic Press, 2000.

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5

service), SpringerLink (Online, ed. Fronts, Waves and Vortices in Geophysical Flows. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2010.

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6

NATO Advanced Study Institute on Buoyant Convection in Geophysical Flows (1997 Pforzheim, Baden-Württemberg, Germany). Buoyant convection in geophysical flows: [proceedings of the NATO Advanced Study Institute on Buoyant Convection in Geophysical Flows, Pforzheim, Baden-Württemberg, Germany, 17-27 March 1997]. Dordrecht: Kluwer Academic in cooperation with NATO Scientific Affairs Division, 1998.

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7

International, Symposium on Modeling Environmental Flows (1985 Albuquerque N. M. ). International Symposium on Modeling Environmental Flows. New York, N.Y. (345 E. 47th St., New York 10017): American Society of Mechanical Engineers, 1985.

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8

Zhou, Jian Guo. Lattice Boltzmann Methods for Shallow Water Flows. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004.

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9

Tosaka, Hiroyuki. Chiken mizu junkan no sūri: Ryūiki mizu kankyō no kaisekihō = Geosphere environmental fluid flows : theories, models and applications. Tōkyō: Tōkyō Daigaku Shuppankai, 2006.

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10

American Society of Mechanical Engineers. Winter Meeting. Mixed convection and environmental flows: Presented at the Winter Annual Meeting of the American Society of Mechanical Engineers, Dallas, Texas, November 25-30, 1990. New York, N.Y: American Society of Mechanical Engineers, 1990.

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11

Meeting, American Society of Mechanical Engineers Winter. Measurement and modeling of environmental flows, 1992: Presented at the Winter Annual Meeting of the American Society of Mechanical Engineers, Anaheim, California, November 8-13, 1992. New York: American Society of Mechanical Engineers, 1992.

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12

Grimshaw, Roger. Environmental Stratified Flows (Topics in Environmental Fluid Mechanics). Springer, 2001.

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13

Luca, Ioana, Yih-Chin Tai, and Chih-Yu Kuo. Shallow Geophysical Mass Flows down Arbitrary Topography: Model Equations in Topography-fitted Coordinates, Numerical Simulation and Back-calculations ... and Environmental Mechanics and Mathematics). Springer, 2016.

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14

Luca, Ioana. Shallow Geophysical Mass Flows down Arbitrary Topography: Model Equations in Topography-fitted Coordinates, Numerical Simulation and Back-calculations ... and Environmental Mechanics and Mathematics). Springer, 2018.

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15

Geurts, Bernard, Herman Clercx, and Wim Uijttewaal. Particle-Laden Flow: From Geophysical to Kolmogorov Scales. Springer London, Limited, 2007.

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16

Provenzale, Antonello, and Jeffrey B. Weiss. Transport and Mixing in Geophysical Flows. Springer Berlin / Heidelberg, 2010.

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17

Kantha, Lakshmi H., and Carol Anne Clayson. Small Scale Processes in Geophysical Fluid Flows. Elsevier Science & Technology Books, 2000.

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18

Small Scale Processes in Geophysical Fluid Flows. Elsevier, 2000. http://dx.doi.org/10.1016/s0074-6142(00)x8073-4.

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19

Buoyant convection in geophysical flows. Dordrecht: Kluwer Academic Publishers, 1998.

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20

Zeitlin, Vladimir. Geophysical Fluid Dynamics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198804338.001.0001.

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The book explains the key notions and fundamental processes in the dynamics of the fluid envelopes of the Earth (transposable to other planets), and methods of their analysis, from the unifying viewpoint of rotating shallow-water model (RSW). The model, in its one- or two-layer versions, plays a distinguished role in geophysical fluid dynamics, having been used for around a century for conceptual understanding of various phenomena, for elaboration of approaches and methods, to be applied later in more complete models, for development and testing of numerical codes and schemes of data assimilations, and many other purposes. Principles of modelling of large-scale atmospheric and oceanic flows, and corresponding approximations, are explained and it is shown how single- and multi-layer versions of RSW arise from the primitive equations by vertical averaging, and how further time-averaging produces celebrated quasi-geostrophic reductions of the model. Key concepts of geophysical fluid dynamics are exposed and interpreted in RSW terms, and fundamentals of vortex and wave dynamics are explained in Part 1 of the book, which is supplied with exercises and can be used as a textbook. Solutions of the problems are available at Editorial Office by request. In-depth treatment of dynamical processes, with special accent on the primordial process of geostrophic adjustment, on instabilities in geophysical flows, vortex and wave turbulence and on nonlinear wave interactions follows in Part 2. Recently arisen new approaches in, and applications of RSW, including moist-convective processes constitute Part 3.
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21

Nonlinear Dynamics and Statistical Theories for Basic Geophysical Flows. Cambridge University Press, 2006.

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22

J, Balmforth Neil, and Woods Hole Oceanographic Institution, eds. Astrophysical and geophysical flows as dynamical systems: 1998 Summer Study Program in Geophysical Fluid Dynamics. Woods Hole, Mass: Woods Hole Oceanographic Institution, 1999.

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23

Kantha, Lakshmi H., and Carol Anne Clayson. Small Scale Processes in Geophysical Fluid Flows, Volume 67 (International Geophysics). Academic Press, 2000.

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24

Kantha, Lakshmi H., and Carol Anne Clayson. Small Scale Processes in Geophysical Fluid Flows, Volume 67 (International Geophysics). Academic Press, 2000.

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25

Imberger, Jorg. Environmental Fluid Dynamics: Flow Processes, Scaling, Equations of Motion, and Solutions to Environmental Flows. Elsevier Science & Technology Books, 2012.

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26

Luca, Ioana, Yih-Chin Tai, and Chih-Yu Kuo. Shallow Geophysical Mass Flows down Arbitrary Topography: Model Equations in Topography-Fitted Coordinates, Numerical Simulation and Back-calculations of Disastrous Events. Springer London, Limited, 2016.

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27

Imberger, Jorg. Enviromental Fluid Dynamics: Flow Processes, Scaling, Equations of Motion, and Solutions to Environmental Flows. Elsevier Science & Technology Books, 2012.

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28

Succi, Sauro. LBE Flows in Disordered Media. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199592357.003.0019.

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The study of transport phenomena in disordered media is a subject of wide interdisciplinary concern, with many applications in fluid mechanics, condensed matter, life and environmental sciences as well. Flows through grossly irregular (porous) media is a specific fluid mechanical application of great practical value in applied science and engineering. It is arguably also one of the applications of choice of the LBE methods. The dual field–particle character of LBE shines brightly here: the particle-like nature of LBE (populations move along straight particle trajectories) permits a transparent treatment of grossly irregular geometries in terms of elementary mechanical events, such as mirror and bounce-back reflections. These assets were quickly recognized by researchers in the field, and still make of LBE (and eventually LGCA) an excellent numerical tool for flows in porous media, as it shall be discussed in this Chapter.
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29

Bouchet, Freddy, Tapio Schneider, Antoine Venaille, and Christophe Salomon, eds. Fundamental Aspects of Turbulent Flows in Climate Dynamics. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198855217.001.0001.

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This book collects the text of the lectures given at the Les Houches Summer School on “Fundamental aspects of turbulent flows in climate dynamics”, held in August 2017. Leading scientists in the fields of climate dynamics, atmosphere and ocean dynamics, geophysical fluid dynamics, physics and non-linear sciences present their views on this fast growing and interdisciplinary field of research, by venturing upon fundamental problems of atmospheric convection, clouds, large-scale circulation, and predictability. Climate is controlled by turbulent flows. Turbulent motions are responsible for the bulk of the transport of energy, momentum, and water vapor in the atmosphere, which determine the distribution of temperature, winds, and precipitation on Earth. Clouds, weather systems, and boundary layers in the oceans and atmosphere are manifestations of turbulence in the climate system. Because turbulence remains as the great unsolved problem of classical physics, we do not have a complete physical theory of climate. The aim of this summer school was to survey what is known about how turbulent flows control climate, what role they may play in climate change, and to outline where progress in this important area can be expected, given today’s computational and observational capabilities. This book reviews the state-of-the-art developments in this field and provides an essential background to future studies. All chapters are written from a pedagogical perspective, making the book accessible to masters and PhD students and all researchers wishing to enter this field. It is complemented by online video of several lectures and seminars recorded during the summer school.
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