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Spectral methods in fluid dynamics

By: Canuto, ClaudioContributor(s): Hussaini, M. Yousuff | Quarteroni, Alfio | Zang, Thomas ASeries: Springer series in computational physicsPublication details: Heidelberg: Springer-Verlag Berlin, [c1988]Description: 567 pISBN: 9783540522058Subject(s): Partial differential equations | Numerical solutions | Numerical analysis | Fluid dynamicsLOC classification: QA377 .S676Online resources: Click here to access online

Contents:

1. Introduction 2. Spectral Approximation 3. Fundamentals of Spectral Methods for PDEs 4. Temporal Discretization 5. Solution Techniques for Implicit Spectral Equations 6. Simple Incompressible Flows 7. Some Algorithms for Unsteady Navier—Stokes Equations 8. Compressible Flow 9. Global Approximation Results 10. Theory of Stability and Convergence for Spectral Methods 11. Steady, Smooth Problems 12. Transient, Smooth Problems 13. Domain Decomposition Methods

Summary: This is a book about spectral methods for partial differential equations: when to use them, how to implement them, and what can be learned from their of spectral methods has evolved rigorous theory. The computational side vigorously since the early 1970s, especially in computationally intensive of the more spectacular applications are applications in fluid dynamics. Some of the power of these discussed here, first in general terms as examples of the methods have been methods and later in great detail after the specifics covered. This book pays special attention to those algorithmic details which are essential to successful implementation of spectral methods. The focus is on algorithms for fluid dynamical problems in transition, turbulence, and aero dynamics. This book does not address specific applications in meteorology, partly because of the lack of experience of the authors in this field and partly because of the coverage provided by Haltiner and Williams (1980). The success of spectral methods in practical computations has led to an increasing interest in their theoretical aspects, especially since the mid-1970s. Although the theory does not yet cover the complete spectrum of applications, the analytical techniques which have been developed in recent years have facilitated the examination of an increasing number of problems of practical interest. In this book we present a unified theory of the mathematical analysis of spectral methods and apply it to many of the algorithms in current use.---summary provided by publisher

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Item type	Current library	Shelving location	Call number	Status	Date due	Barcode	Item holds
Book	ICTS	Rack No 6	QA377 .S676 (Browse shelf (Opens below))	Checked out to Ritwik Mukherjee (0014580909)	11/04/2024	02847

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Previous	QA377 .M283365 Fast direct solvers for elliptic PDEs	QA377.S Nonlinear Systems of Partial Differential Equations in Applied Mathematics: Part 1 Vol.23	QA377.S Nonlinear Systems of Partial Differential Equations in Applied Mathematics: Part 2, Vol. 23	QA377 .S676 Spectral methods in fluid dynamics	QA378.5 Data assimilation : methods, algorithms, and applications	QA378.5 A taste of inverse problems : basic theory and examples	QA378.5 An introduction to data analysis and uncertainty quantification for inverse problems	Next

1. Introduction
2. Spectral Approximation
3. Fundamentals of Spectral Methods for PDEs
4. Temporal Discretization
5. Solution Techniques for Implicit Spectral Equations
6. Simple Incompressible Flows
7. Some Algorithms for Unsteady Navier—Stokes Equations
8. Compressible Flow
9. Global Approximation Results
10. Theory of Stability and Convergence for Spectral Methods
11. Steady, Smooth Problems
12. Transient, Smooth Problems
13. Domain Decomposition Methods

This is a book about spectral methods for partial differential equations: when to use them, how to implement them, and what can be learned from their of spectral methods has evolved rigorous theory. The computational side vigorously since the early 1970s, especially in computationally intensive of the more spectacular applications are applications in fluid dynamics. Some of the power of these discussed here, first in general terms as examples of the methods have been methods and later in great detail after the specifics covered. This book pays special attention to those algorithmic details which are essential to successful implementation of spectral methods. The focus is on algorithms for fluid dynamical problems in transition, turbulence, and aero dynamics. This book does not address specific applications in meteorology, partly because of the lack of experience of the authors in this field and partly because of the coverage provided by Haltiner and Williams (1980). The success of spectral methods in practical computations has led to an increasing interest in their theoretical aspects, especially since the mid-1970s. Although the theory does not yet cover the complete spectrum of applications, the analytical techniques which have been developed in recent years have facilitated the examination of an increasing number of problems of practical interest. In this book we present a unified theory of the mathematical analysis of spectral methods and apply it to many of the algorithms in current use.---summary provided by publisher

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