Numerical Methods in Fluid Dynamics

Numerical Methods in Fluid Dynamics
Author: Maurice Holt
Publisher: Springer Science & Business Media
Total Pages: 285
Release: 2012-12-06
Genre: Science
ISBN: 3642693415

From the reviews of the first edition: "This book is directed to graduate students and research workers interested in the numerical solution of problems of fluid dynamics, primarily those arising in high speed flow. ...The book is well arranged, logically presented and well illustrated. It contains several FORTRAN programms with which students could experiment ... It is a practical book, with emphasis on methods and their implementation. It is an excellent text for the fruitful research area it covers, and is highly recommended". Journal of Fluid Mechanics #1 From the reviews of the second edition: "The arrangement of chapters in the book remains practically the same as that in the first editon (1977), except for the inclusion of Glimm's method ... This book is higly recommended for both graduate students and researchers." Applied Mechanics Reviews #1

Numerical Heat Transfer and Fluid Flow

Numerical Heat Transfer and Fluid Flow
Author: Suhas Patankar
Publisher: CRC Press
Total Pages: 218
Release: 2018-10-08
Genre: Science
ISBN: 1351991515

This book focuses on heat and mass transfer, fluid flow, chemical reaction, and other related processes that occur in engineering equipment, the natural environment, and living organisms. Using simple algebra and elementary calculus, the author develops numerical methods for predicting these processes mainly based on physical considerations. Through this approach, readers will develop a deeper understanding of the underlying physical aspects of heat transfer and fluid flow as well as improve their ability to analyze and interpret computed results.

Unsteady Viscous Flows

Unsteady Viscous Flows
Author: Demetri P. Telionis
Publisher: Springer Science & Business Media
Total Pages: 429
Release: 2012-12-06
Genre: Science
ISBN: 3642885675

Most of the fundamental concepts of unsteady viscous flows have been known since the early part of the century. However, the past decade has seen an unprecedented number of publications in this area. In this monograph I try to connect materials of earlier contributions and synthesize them into a comprehensive entity. One of the main purposes of a monograph, in my opinion, is to fit together in a comprehensive way scattered contributions that provide fragmented information to the readers. The collection of such contributions should be presented in a unified way; continuity of thought and logical sequence of the presentation of ideas and methods are essential. The reader should be able to follow through without having to resort to other references, something that is unavoidable in the case of a research paper or even a review paper. Many of the solutions discussed in the literature address specific practical problems. In fact, in the process of collecting information, I discovered independent lines of investigations, dealing with the same physical problem, but inspired by different practical applications. For example, I found that two groups of investigators have been studying independently the response of a viscous layer to a harmonic external disturbance. One group is con cerned with mass transport and the transport of sediment over the bottom of the ocean, and the other is interested in the aerodynamics of lifting surfaces in harmonically changing environments.

Numerical Simulation - Advanced Techniques for Science and Engineering

Numerical Simulation - Advanced Techniques for Science and Engineering
Author: Ali Soofastaei
Publisher: BoD – Books on Demand
Total Pages: 342
Release: 2023-11-15
Genre: Computers
ISBN: 1803569530

Numerical simulation is a powerful tool used in various fields of science and engineering to model complex systems and predict their behavior. It involves developing mathematical models that describe the behavior of a system and using computer algorithms to solve these models numerically. By doing so, researchers and engineers can study the behavior of a system in detail, which may only be possible with analytical methods. Numerical simulation has many advantages over traditional analytical methods. It allows researchers and engineers to study complex systems’ behavior in detail and predict their behavior in different scenarios. It also allows for the optimization of systems and the identification of design flaws before they are built. However, numerical simulation has its limitations. It requires significant computational resources, and the accuracy of the results depends on the quality of the mathematical models and the discretization methods used. Nevertheless, numerical simulation remains a valuable tool in many fields and its importance is likely to grow as computational resources become more powerful and widely available. Numerical simulation is widely used in physics, engineering, computer science, and mathematics. In physics, for example, numerical simulation is used to study the behavior of complex systems such as weather patterns, fluid dynamics, and particle interactions. In engineering, it is used to design and optimize systems such as aircraft, cars, and buildings. In computer science, numerical simulation models and optimization algorithms and data structures. In mathematics, it is used to study complex mathematical models and to solve complex equations. This book familiarizes readers with the practical application of the numerical simulation technique to solve complex analytical problems in different industries and sciences.

Advances in Hydroscience

Advances in Hydroscience
Author: Ven Te Chow
Publisher: Elsevier
Total Pages: 448
Release: 2013-10-22
Genre: Science
ISBN: 1483215210

Advances in Hydroscience, Volume 11 -1978 covers topics on the progressive development in water science, including stochastic hydrology, the numerical analysis for hydrodynamic modeling, solid-state hydrology, and subsurface waters. The book presents topics on the theory and examples to model lumped quasi-stochastic and stochastic watershed systems; the progress made in the area of multidimensional numerical modeling of hydrodynamic and water-quality processes in estuary and coastal sea systems; and the physical principles governing the flow of water through snow. The text also includes articles on the state of the art of the finite-element modeling techniques in surface and subsurface hydraulic problems; the developments in the area of rainfall-runoff relations and physically-based stochastic hydrologic analysis; as well as well hydraulics in heterogeneous aquifer formations. Hydrologists, ocean engineers, hydraulic engineers, and subsurface engineers will find the book invaluable.

Numerical Methods in Fluid Dynamics

Numerical Methods in Fluid Dynamics
Author: M. Holt
Publisher: Springer Science & Business Media
Total Pages: 262
Release: 2012-12-06
Genre: Science
ISBN: 3642963706

This monograph is based on a graduate course, Mechanical Engipeering 266, which was developed over a number of years at the University of California-Berkeley. Shorter versions of the course were given at the University of Paris VI in 1969, and at the University of Paris XI in 1972. The course was originally presented as the last of a three quarter sequence on Compressible Flow Theory, with emphasis on the treatment of non-linear problems by numerical techniques. This is reflected in the material of the first half of the book, covering several techniques for handling non-linear wave interaction and other problems in Gas Dynamics. The techniques have their origins in the Method of Characteristics (in both two and three dimensions). Besides reviewing the method itself the more recent techniques derived from it, firstly by Godunov and his group, and secondly by Rusanov and his co-workers, are described. Both these approaches are applicable to steady flows calculated as asymptotic states of unsteady flows and treat elliptic prob lems as limiting forms of unsteady hyperbolic problems. They are there fore applicable to low speed as well a~ to high speed flow problems. The second half of the book covers the treatment of a variety of steady flow problems, including effects of both viscosity and compressibi lity, by the Method of Integral Relations, Telenin's Method, and the Method of Lines.