Tag Archives: flows,

“Advanced Fluid Dynamics” ed. by Hyoung Woo Oh

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"Advanced Fluid Dynamics" ed. by Hyoung Woo Oh
InTeOpP | 2012 | ISBN: 9535102702 9789535102700 | 281 pages | PDF | 18 MB
This book is intended to serve as a reference text for presenting a broad range of topics on fluid dynamics to advanced scientists and researchers.
The chapters have been contributed by the prominent specialists in the field of fluid dynamics cover experimental and numerical fluid dynamics, aeroacoustics, multiphase flow analysis, convective instability, combustion, and turbulence modeling.

“Advanced Fluid Dynamics” ed. by Hyoung Woo Oh
Contents
Preface
1. An Experimental and Computational Study of the Fluid Dynamics of Dense Cooling Air-Mists
2. Direct Numerical Simulations of Compressible Vortex Flow Problems
3. Fluid Dynamics of Gas – Solid Fluidized Beds
4. Fuel Jet in Cross Flow – Experimental Study of Spray Characteristics
5. Influence of Horizontal Temperature Gradients on Convective Instabilities with Geophysical Interest
6. Internal Flows Driven by Wall-Normal Injection
7. Modelling of Turbulent Premixed and Partially Premixed Combustion
8. Multiscale Window Interaction and Localized Nonlinear Hydrodynamic Stability Analysis
9. Stability Investigation of Combustion Chambers with LES
10. Turbulent Boundary Layer Models: Theory and Applications
11. Unitary Qubit Lattice Gas Representation of 2D and 3D Quantum Turbulence
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Desert Lake: Art, Science and Stories from Paruku

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Desert Lake: Art, Science and Stories from Paruku by Steve Morton, Mandy Martin, Kim Mahood, John Carty
2013 | ISBN: 0643106286 | English | 312 pages | PDF | 94 MB

Desert Lake: Art, Science and Stories from Paruku
Desert Lake is a book combining artistic, scientific and Indigenous views of a striking region of north-western Australia. Paruku is the place that white people call Lake Gregory. It is Walmajarri land, and its people live on their Country in the communities of Mulan and Billiluna.

This is a story of water. When Sturt Creek flows from the north, it creates a massive inland Lake among the sandy deserts. Not only is Paruku of national significance for waterbirds, but it is has also helped uncover the past climatic and human history of Australia.

The Walmajarri people of Paruku understand themselves in relation to Country, a coherent whole linking the environment, the people and the Law that governs their lives. These understandings are encompassed by the Waljirri or Dreaming and expressed through the songs, imagery and narratives of enduring traditions. Desert Lake is embedded in this broader vision of Country and provides a rich visual and cross-cultural portrait of an extraordinary part of Australia.
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Learning from Leonardo: Decoding the Notebooks of a Genius

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Learning from Leonardo: Decoding the Notebooks of a Genius by Fritjof Capra
English | 2013 | ISBN: 1609949897 | 384 pages | EPUB | 19 MB

Learning from Leonardo: Decoding the Notebooks of a Genius
eonardo da Vinci was a brilliant artist, scientist, engineer, mathematician, architect, inventor, writer, and even musician—the archetypal Renaissance man. But he was also, Fritjof Capra argues, a profoundly modern man. Not only did Leonardo invent the empirical scientific method over a century before Galileo and Francis Bacon, but Capra's decade-long study of Leonardo's fabled notebooks reveal him as a systems thinker centuries before the term was coined. He believed the key to truly understanding the world was in perceiving the connections between phenomena and the larger patterns formed by those relationships. This is precisely the kind of holistic approach the complex problems we face today demand. Capra describes seven defining characteristics of Leonardo da Vinci's genius and includes a list of over forty discoveries Leonardo made that weren't rediscovered until centuries later. Leonardo pioneered entire fields—fluid dynamics, theoretical botany, aerodynamics, embryology. Capra's overview of Leonardo's thought follows the organizational scheme Leonardo himself intended to use if he ever published his notebooks. So in a sense, this is Leonardo's science as he himself would have presented it. Leonardo da Vinci saw the world as a dynamic, integrated whole, so he always applied concepts from one area to illuminate problems in another. For example, his studies of the movement of water informed his ideas about how landscapes are shaped, how sap rises in plants, how air moves over a bird's wing, and how blood flows in the human body. His observations of nature enhanced his art, his drawings were integral to his scientific studies, and he brought art and science together in his extraordinarily beautiful and elegant mechanical and architectural designs. Obviously, we can't all be geniuses on the scale of Leonardo da Vinci. But by exploring the mind of the preeminent Renaissance genius, we can gain profound insights into how best to address the challenges of the 21st century.
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Perspectives in Fluid Dynamics: A Collective Introduction to Current Research

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Perspectives in Fluid Dynamics: A Collective Introduction to Current Research
English | Physics, Mechanics | 14. December 2000 | ISBN-10: 0521780616 | 646 pages | Djvu | 7 mb
Now available in paperback, this wide-ranging text on modern fluid mechanics research includes sections on modelling the environment, physiology and magnetohydrodynamics.

Perspectives in Fluid Dynamics: A Collective Introduction to Current Research
At the same time, the book discusses basic physical phenomena such as turbulence that still present fundamental challenges. Conventional textbooks cannot hope to give graduate students more than an inkling of what topics are currently being researched, or how to make a choice between them. This book aims to rectify matters, at least in part. It consists of eleven chapters that each introduces a different branch of the subject. Though not exhaustive, the coverage is broad: thin-film flows, Saffman-Taylor fingering, flows in arteries and veins, convective and absolute instabilities, turbulence, natural convection, magnetohydrodynamics, solidification, geological fluid mechanics, oceanography and atmospheric dynamics are all introduced and reviewed by established authorities. Thus the book will not only be suitable for graduate-level courses but also for specialists seeking introductions to other areas.
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Perspectives in Fluid Dynamics: A Collective Introduction to Current Research

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Perspectives in Fluid Dynamics: A Collective Introduction to Current Research
English | Physics, Mechanics | 14. December 2000 | ISBN-10: 0521780616 | 646 pages | Djvu | 7 mb
Now available in paperback, this wide-ranging text on modern fluid mechanics research includes sections on modelling the environment, physiology and magnetohydrodynamics.

Perspectives in Fluid Dynamics: A Collective Introduction to Current Research
At the same time, the book discusses basic physical phenomena such as turbulence that still present fundamental challenges. Conventional textbooks cannot hope to give graduate students more than an inkling of what topics are currently being researched, or how to make a choice between them. This book aims to rectify matters, at least in part. It consists of eleven chapters that each introduces a different branch of the subject. Though not exhaustive, the coverage is broad: thin-film flows, Saffman-Taylor fingering, flows in arteries and veins, convective and absolute instabilities, turbulence, natural convection, magnetohydrodynamics, solidification, geological fluid mechanics, oceanography and atmospheric dynamics are all introduced and reviewed by established authorities. Thus the book will not only be suitable for graduate-level courses but also for specialists seeking introductions to other areas.
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“Advanced Methods for Practical Applications in Fluid Mechanics” ed. by Steven A. Jones

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"Advanced Methods for Practical Applications in Fluid Mechanics" ed. by Steven A. Jones
InTeOpP | 2012 | ISBN: 9535102419 9789535102410 | 241 pages | PDF | 15 MB
Central to this book are two ideas. The first is that Fluid Mechanics is relevant to a wide variety of problems that are priorities in the early 21st century, three of which are health, the environment, and energy. The second idea is that researchers in this field are applying novel methods to address these problems.

Even on its most basic level, Fluid Mechanics is challenging. Only in limited cases, for example, can the nonlinearities of the Navier-Stokes

“Advanced Methods for Practical Applications in Fluid Mechanics” ed. by Steven A. Jones
Contents
Preface
Part 1 General Fluid Mechanical Methods
1 Overview on Stereoscopic Particle Image Velocimetry
Part 2 Illustrative Applications
2 Two-Dimensional Supersonic Flow with Perpendicular Injection of the Gas
Part 3 Advances in Classical Approaches
3 Modification of the Charnock Wind Stress Formula to Include the Effects of Free Convection and Swell
4 Dynamically Incompressible Flow
5 Parallel Accelerated Group Iterative Algorithms in the Solution of Two-Space Dimensional Diffusion Equations
6 An Idealised Biphasic Poroelastic Finite Element Model of a Tibial Fracture
7 Radial Basis Functions Methods for Solving Radionuclide Migration. Phase Change and Wood Charring Problems
8 Simulation of Acoustic Sound Produced by Interaction Between Vortices and Arbitrarily Shaped Body in Multi-Dimensional Flows by the Vortex Method
Part 4 Non-Classical Approaches
9 Multiscale Particle-ln-Cell Method: From Fluid to Solid Mechanics
10 Topology Optimization of Fluid Mechanics Problems
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Tackling Turbulent Flows in Engineering

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Anupam Dewan, "Tackling Turbulent Flows in Engineering"
2011 | pages: 138 | ISBN: 3642147666 | PDF | 1,3 mb

Tackling Turbulent Flows in Engineering
The emphasis of this book is on engineering aspects of fluid turbulence. The book explains for example how to tackle turbulence in industrial applications. It is useful to several disciplines, such as, mechanical, civil, chemical, aerospace engineers and also to professors, researchers, beginners, under graduates and post graduates. The following issues are emphasized in the book: – Modeling and computations of engineering flows: The author discusses in detail the quantities of interest for engineering turbulent flows and how to select an appropriate turbulence model; Also, a treatment of the selection of appropriate boundary conditions for the CFD simulations is given. – Modeling of turbulent convective heat transfer: This is encountered in several practical situations. It basically needs discussion on issues of treatment of walls and turbulent heat fluxes. – Modeling of buoyancy driven flows, for example, smoke issuing from chimney, pollutant discharge into water bodies, etc
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Mean Curvature Flow and Isoperimetric Inequalities

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Manuel Ritoré, Carlo Sinestrari, Vicente Miquel, Joan Porti, "Mean Curvature Flow and Isoperimetric Inequalities"
2010 | pages: 121 | ISBN: 303460212X | PDF | 1,6 mb

Mean Curvature Flow and Isoperimetric Inequalities
Geometric flows have many applications in physics and geometry. The mean curvature flow occurs in the description of the interface evolution in certain physical models. This is related to the property that such a flow is the gradient flow of the area functional and therefore appears naturally in problems where a surface energy is minimized. The mean curvature flow also has many geometric applications, in analogy with the Ricci flow of metrics on abstract riemannian manifolds. One can use this flow as a tool to obtain classification results for surfaces satisfying certain curvature conditions, as well as to construct minimal surfaces. Geometric flows, obtained from solutions of geometric parabolic equations, can be considered as an alternative tool to prove isoperimetric inequalities. On the other hand, isoperimetric inequalities can help in treating several aspects of convergence of these flows. Isoperimetric inequalities have many applications in other fields of geometry, like hyperbolic manifolds.
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Chaos and Structures in Nonlinear Plasmas

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W. Horton, Y-H Ichikawa, "Chaos and Structures in Nonlinear Plasmas"
English | ISBN: 9810226365 | 1996 | 356 pages | Djvu | 4 MB

Chaos and Structures in Nonlinear Plasmas
This book develops the subject of nonlinear plasma physics from a general physics perspective. It begins with a description of nonlinear oscillations, the parametric instability, the pendulum, and the nonlinear island overlap criterion. The Kolomogorov-Arnold-Moser (KAM) theory is also analyzed. Laboratory visualizations of the KAM theory are presented for experiments in toroidal plasma confinement and rotating fluids. The subjects of transport in ExB flows and geostrophic flows are developed in parallel, stressing the generality of the Charney-Hasegawa-Mima equation. The dual nature of wave turbulence and vortex dynamics is developed for plasmas and geophysical flows. The presentation of the subject of nonlinear maps shows how maps are related to the nonlinear dynamics in plasma physics problems. Numerous space plasma and fusion physics examples are developed throughout the book. The final chapter deals with turbulence theory, renormalized mode coupling equations, and Kolomogorov-type spectra as modified for anisotropic plasmas.
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