
Introduction to Theoretical and Computational Fluid Dynamics is the first textbook to combine theoretical and computational aspects of fluid dynamics in a unified and comprehensive treatment. The theoretical developments are carried into the realm of numerical computation, and the numerical procedures are developed from first principles.This book offers a comprehensive and rigorous introduction to the fundamental principles and equations that govern the kinematics and dynamics of the laminar flow of incompressible Newtonian fluids. It simultaneously illustrates the application of numerical methods to solving a broad range of problems drawn from diverse areas, and discusses the development of pertinent computational algorithms. Topics considered include the description and analysis of flow kinematics; the computation of exact solutions of hydrostatics and hydrodynamics by solving ordinary differential equations; the study and computation of potential flow; the theory and numerical study of flow at low Reynolds numbers, linear hydrodynamic stability, and vortex motion; boundary-integral methods for potential and Stokes flow; and finite-difference methods for the Navier-Stokes equation. An appendix contains a primer of numerical methods that allows for ready reference.A unique synthesis of the theoretical and computational aspects of its field, Introduction to Theoretical and Computational Fluid Dynamics serves as an ideal text and source reference for advanced undergraduate students, graduate students, and researchers in the various fields of science and engineering, including mechanical, aeronautical, and chemical engineering, applied mathematics, physics, and computational science. It assumes no prior experience in computational fluid dynamics, and provides references for specialized topics. Each section is followed by theoretical and computer problems that allow the reader to acquire hands-on experience and simultaneously develop insights into the physics of a vari
This text investigates the integration of theoretical fluid mechanics with computational numerical methods to provide a unified framework for solving complex flow problems. C. Pozrikidis, a recognized expert in the field, synthesizes fundamental physical principles with algorithmic implementation. The book serves as a pedagogical bridge, moving from the derivation of governing equations to the practical application of finite-difference and boundary-integral methods for incompressible Newtonian fluids.
What You Will Find
Experts and educators frequently cite this work as a foundational resource for bridging the gap between analytical fluid mechanics and modern computational practice. Readers often note the academic rigor and the utility of the included numerical primer for students entering the field of computational science.
Page Count:
688
Publication Date:
1996-10-03
Publisher:
Oxford University Press
ISBN-10:
0195093208
ISBN-13:
9780195093209
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