Mathematical Foundation Of Turbulent Viscous Flows
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Mathematical Foundation of Turbulent Viscous Flows
Author | : P. Constantin,Giovanni Gallavotti,Alexandre V. Kazhikhov,Yves Meyer,Seiji Ukai |
Publsiher | : Springer Science & Business Media |
Total Pages | : 280 |
Release | : 2006-01-10 |
Genre | : Mathematics |
ISBN | : 3540285865 |
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Constantin presents the Euler equations of ideal incompressible fluids and the blow-up problem for the Navier-Stokes equations of viscous fluids, describing major mathematical questions of turbulence theory. These are connected to the Caffarelli-Kohn-Nirenberg theory of singularities for the incompressible Navier-Stokes equations, explained in Gallavotti's lectures. Kazhikhov introduces the theory of strong approximation of weak limits via the method of averaging, applied to Navier-Stokes equations. Y. Meyer focuses on nonlinear evolution equations and related unexpected cancellation properties, either imposed on the initial condition, or satisfied by the solution itself, localized in space or in time variable. Ukai discusses the asymptotic analysis theory of fluid equations, the Cauchy-Kovalevskaya technique for the Boltzmann-Grad limit of the Newtonian equation, the multi-scale analysis, giving compressible and incompressible limits of the Boltzmann equation, and the analysis of their initial layers.
Mathematical Foundation of Turbulent Viscous Flows
Author | : P. Constantin,Giovanni Gallavotti,Alexandre V. Kazhikhov,Yves Meyer,Seiji Ukai |
Publsiher | : Springer |
Total Pages | : 264 |
Release | : 2006-01-10 |
Genre | : Mathematics |
ISBN | : 3540285865 |
Download Mathematical Foundation of Turbulent Viscous Flows Book in PDF, Epub and Kindle
Constantin presents the Euler equations of ideal incompressible fluids and the blow-up problem for the Navier-Stokes equations of viscous fluids, describing major mathematical questions of turbulence theory. These are connected to the Caffarelli-Kohn-Nirenberg theory of singularities for the incompressible Navier-Stokes equations, explained in Gallavotti's lectures. Kazhikhov introduces the theory of strong approximation of weak limits via the method of averaging, applied to Navier-Stokes equations. Y. Meyer focuses on nonlinear evolution equations and related unexpected cancellation properties, either imposed on the initial condition, or satisfied by the solution itself, localized in space or in time variable. Ukai discusses the asymptotic analysis theory of fluid equations, the Cauchy-Kovalevskaya technique for the Boltzmann-Grad limit of the Newtonian equation, the multi-scale analysis, giving compressible and incompressible limits of the Boltzmann equation, and the analysis of their initial layers.
Mathematical Foundation of Turbulent Viscous Flows
Author | : P. Constantin,Giovanni Gallavotti,Alexandre V. Kazhikhov,Yves Meyer,Seiji Ukai |
Publsiher | : Springer |
Total Pages | : 264 |
Release | : 2009-09-02 |
Genre | : Mathematics |
ISBN | : 3540814930 |
Download Mathematical Foundation of Turbulent Viscous Flows Book in PDF, Epub and Kindle
Constantin presents the Euler equations of ideal incompressible fluids and the blow-up problem for the Navier-Stokes equations of viscous fluids, describing major mathematical questions of turbulence theory. These are connected to the Caffarelli-Kohn-Nirenberg theory of singularities for the incompressible Navier-Stokes equations, explained in Gallavotti's lectures. Kazhikhov introduces the theory of strong approximation of weak limits via the method of averaging, applied to Navier-Stokes equations. Y. Meyer focuses on nonlinear evolution equations and related unexpected cancellation properties, either imposed on the initial condition, or satisfied by the solution itself, localized in space or in time variable. Ukai discusses the asymptotic analysis theory of fluid equations, the Cauchy-Kovalevskaya technique for the Boltzmann-Grad limit of the Newtonian equation, the multi-scale analysis, giving compressible and incompressible limits of the Boltzmann equation, and the analysis of their initial layers.
Mathematical and Numerical Foundations of Turbulence Models and Applications
Author | : Tomás Chacón Rebollo,Roger Lewandowski |
Publsiher | : Springer |
Total Pages | : 530 |
Release | : 2014-06-17 |
Genre | : Mathematics |
ISBN | : 9781493904556 |
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With applications to climate, technology, and industry, the modeling and numerical simulation of turbulent flows are rich with history and modern relevance. The complexity of the problems that arise in the study of turbulence requires tools from various scientific disciplines, including mathematics, physics, engineering and computer science. Authored by two experts in the area with a long history of collaboration, this monograph provides a current, detailed look at several turbulence models from both the theoretical and numerical perspectives. The k-epsilon, large-eddy simulation and other models are rigorously derived and their performance is analyzed using benchmark simulations for real-world turbulent flows. Mathematical and Numerical Foundations of Turbulence Models and Applications is an ideal reference for students in applied mathematics and engineering, as well as researchers in mathematical and numerical fluid dynamics. It is also a valuable resource for advanced graduate students in fluid dynamics, engineers, physical oceanographers, meteorologists and climatologists.
Viscous Flows
Author | : Ahmer Mehmood |
Publsiher | : Springer |
Total Pages | : 193 |
Release | : 2017-04-22 |
Genre | : Technology & Engineering |
ISBN | : 9783319554327 |
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This authored monograph provides a detailed discussion of the boundary layer flow due to a moving plate. The topical focus lies on the 2- and 3-dimensional case, considering axially symmetric and unsteady flows. The author derives a criterion for the self-similar and non-similar flow, and the turbulent flow due to a stretching or shrinking sheet is also discussed. The target audience primarily comprises research experts in the field of boundary layer flow, but the book will also be beneficial for graduate students.
Viscous Flow Theory Turbulent flow
Author | : Shiyi Bai |
Publsiher | : Unknown |
Total Pages | : 300 |
Release | : 1957 |
Genre | : Fluid dynamics |
ISBN | : UOM:39015000994643 |
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Mathematics of Large Eddy Simulation of Turbulent Flows
Author | : Luigi Carlo Berselli,Traian Iliescu,William J. Layton |
Publsiher | : Springer Science & Business Media |
Total Pages | : 357 |
Release | : 2005-12-19 |
Genre | : Computers |
ISBN | : 9783540263173 |
Download Mathematics of Large Eddy Simulation of Turbulent Flows Book in PDF, Epub and Kindle
The LES-method is rapidly developing in many practical applications in engineering The mathematical background is presented here for the first time in book form by one of the leaders in the field
Introduction to the Numerical Analysis of Incompressible Viscous Flows
Author | : William Layton |
Publsiher | : SIAM |
Total Pages | : 220 |
Release | : 2008-01-01 |
Genre | : Mathematics |
ISBN | : 9780898718904 |
Download Introduction to the Numerical Analysis of Incompressible Viscous Flows Book in PDF, Epub and Kindle
Introduction to the Numerical Analysis of Incompressible Viscous Flows treats the numerical analysis of finite element computational fluid dynamics. Assuming minimal background, the text covers finite element methods; the derivation, behavior, analysis, and numerical analysis of Navier-Stokes equations; and turbulence and turbulence models used in simulations. Each chapter on theory is followed by a numerical analysis chapter that expands on the theory. This book provides the foundation for understanding the interconnection of the physics, mathematics, and numerics of the incompressible case, which is essential for progressing to the more complex flows not addressed in this book (e.g., viscoelasticity, plasmas, compressible flows, coating flows, flows of mixtures of fluids, and bubbly flows). With mathematical rigor and physical clarity, the book progresses from the mathematical preliminaries of energy and stress to finite element computational fluid dynamics in a format manageable in one semester. Audience: this unified treatment of fluid mechanics, analysis, and numerical analysis is intended for graduate students in mathematics, engineering, physics, and the sciences who are interested in understanding the foundations of methods commonly used for flow simulations.