4 edition of **Computational heat transfer** found in the catalog.

- 77 Want to read
- 5 Currently reading

Published
**1986** by Hemisphere Pub. Corp. in Washington, D.C .

Written in English

- Heat -- Transmission -- Mathematics.

**Edition Notes**

Includes bibliographies and index.

Statement | Yogesh Jaluria, Kenneth E. Torrance. |

Series | Series in computational methods in mechanics and thermal sciences, |

Contributions | Torrance, K. E. 1940- |

Classifications | |
---|---|

LC Classifications | TJ260 .J35 1986 |

The Physical Object | |

Pagination | xiii, 366 p. : |

Number of Pages | 366 |

ID Numbers | |

Open Library | OL2716662M |

ISBN 10 | 0891162860 |

LC Control Number | 86009785 |

Therefore, such a comparison is important to help us to understand the correspondence between physical modeling and numerical performances. Theory and practice are combined in a simple and straightforward manner. Optimal convergence under both time and space refinements is shown as well as the convergence of the probability density functions with the number of stochastic realizations. He is currently the Boards of Governors Professor at Rutgers.

Review: "I have always considered this book the best gift from one generation to the next in computational fluid dynamics. In addition to the fundamental and general topics to be covered in a typical CFD textbook, chapters concerning high-speed aerodynamics in depth are also included, which is very important for computational aerodynamicists. The book is divided into two parts. I earnestly recommend this book to graduate students and practicing engineers for the pleasure of learning and a handy reference. Often different mechanisms like heat conduction, convection, thermal radiation, and non-linear phenomena, such as temperature-dependent thermophysical properties, and phase changes occur simultaneously.

One is based on the assumption of equilibrium state with infinite number of particle collisions, and the other starts from the non-equilibrium free transport process to evolve into an equilibrium one through particle collisions. In addition, review papers on relevant topics are invited as is correspondence on published papers. To further progess computational methods in heat transfer, developments in theoretical and predictive procedures, both basic and innovative, and applied research are needed. In addition to the fundamental and general topics to be covered in a typical CFD textbook, chapters concerning high-speed aerodynamics in depth are also included, which is very important for computational aerodynamicists. Computational fluid dynamics and heat transfer, as well as finite element codes, are standard tools in the computer-aided design and analysis of processes and products involving coupled transport and multi-physic phenomena. To adapt the Navier-Stokes NS equations is NOT valid either because the NS equations describe the flow behavior on the hydrodynamic scale and have no any corresponding physics starting from a discontinuity.

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His research topics are enhancement of heat transfer in compact heat exchangers, computational methods of convective flow and heat transfer in complex narrow geometries, combustion-related heat transfer including thermal radiation, gas turbine heat transfer impinging jets, film cooling, ribbed ductsevaporation and condensation in plate heat exchangers, thermal imaging techniques, PIV, and multiscale and multiphysics transport phenomena in fuel cells.

New developments in numerical solution methods of partial differential equations and access to high-speed, efficient and cheap computers have led to dramatic advances during recent years.

Optimal convergence under both time and space refinements is shown as well as the convergence of the probability density functions with the number of stochastic realizations. It describes the successful application of this method to the simulation of the mass transfer process in a fluidized bed, as well as recent investigations and computing methods for predictions for the multi-component mass transfer process.

Shang, Wright State University "Computational Fluid Mechanics and Heat Transfer is very well written to be used as a textbook for an introductory computational fluid dynamics course, especially for those who want to study computational aerodynamics.

The final prices may differ from the prices shown due to specifics of VAT rules About this book This book offers an easy-to-understand introduction to the computational mass transfer CMT method. The text first reviews basic CFD theory, and then details advanced applied theories for estimating turbulence, including new algorithms created by the author.

CarringtonArun Kumar Nayak Aims and Scope Computational Thermal Sciences is an international journal designed to provide a forum for the exposure and exchange of ideas, methods and results in computational thermodynamics, fluid dynamics, heat transfer and mass transfer in solids, liquids and gases, with applications in areas such as energy, materials processing, manufacturing and the environment.

The assessment of the accuracy of computational solutions through verification examining and limiting errors associated with discretization and with the computational solution methods adopted and validation quantification of errors in the physical models used are essential parts of any computational study, and authors are expected to examine these aspects.

Heat transfer topics are commonly of a very complex nature and different mechanisms such as heat conduction, convection, thermal radiation, and nonlinear phenomena such as temperature-dependent thermophysical properties, and phase change often occur simultaneously.

The dynamically orthogonal DO field equations provide an adaptive methodology to predict the probability density functions of such flows.

In addition, he is active editor for four journals. Other results include: i the definition of pseudo-stochastic pressures to obtain a number of pressure equations that is linear in the subspace size instead of quadratic; ii symmetric advection schemes for the stochastic velocities; iii the use of generalized inversion to deal with singular subspace covariances or deterministic modes; and iv schemes to maintain orthonormal modes at the numerical level.

He has been editor of 25 books published by international publishing houses and author of two textbooks one in Swedish, one in English. Associate Editors: David B. Format Available : PDF, ePub, Mobi Total Read : 52 Total Download : File Size : 54,8 Mb Description : This unique text provides engineering students and practicing professionals with a comprehensive set of practical, hands-on guidelines and dozens of step-by-step examples for performing state-of-the-art, reliable computational fluid dynamics CFD and turbulence modeling.

Seung O. Key CFD and turbulence programs are included as well. The description of the basic concepts and fundamentals is thorough and is crystal clear for understanding. The example problems and exercises in each chapter explain the procedure for defining and organizing the required initial and boundary condition data for a specific problem, and computer code listings in MATLAB and MAPLE are included for setting up the examples within the text, including COMSOL files.

He has been editor of 25 books published by international publishing houses and author of two textbooks one in Swedish, one in English. Conference Not Available Among the topics discussed are a novel three-dimensional vortex method, unsteady viscous flow around circular cylinders and airfoils, a time-accurate multiple grid algorithm, the numerical solution of incompressible flows by a marching multigrid nonlinear method, the Navier-Stokes solution for hypersonic flow over an indented nosetip, graphics and flow visualization in computational fluid dynamics, and a Navier-Stokes solution for the flow around a complete aircraft.

End-of-chapter problems are provided at the end of every chapter for extra practice and homework assignments. As an introductory text, this book is appropriate for senior undergraduate and first-year graduate level courses.

Although both methods have been applied successfully to the inviscid compressible flow computations, their performances have never been compared.

The development of numerical algorithm is similar to the modeling process in deriving the governing equations, but the control volume here cannot be shrunk to zero.

The GRP has carbuncle phenomena, likes a cloud hanging over exact Riemann solvers.

Classic problems in heat transfer, mass transfer, and fluid flows are solved and illustrated through step-by-step derivations and numerous figures.

Different Reynolds number and Grashof number regimes are employed to illustrate robustness.Apr 13, · Very often books published on Computational Fluid Dynamics using the Finite Element Method give very little or no significance to thermal or heat transfer problems. From the research point of view, it is important to explain the handling of various types of heat transfer problems with different types of complex boundary conditions.

Main Computational Fluid Mechanics and Heat Transfer Computational Fluid Mechanics and Heat Transfer Anderson, Dale, Pletcher, Richard H., Tannehill, John C. 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.5/5(11). "Finite Difference Methods in Heat Transfer, Second Edition focuses on finite difference methods and their application to the solution of heat transfer problems.

Such methods are based on the discretization of governing equations, initial and boundary conditions, which then replace a continuous partial differential problem by a system of.

Computational Methods for Heat and Mass Transfer - CRC Press Book The advent of high-speed computers has encouraged a growing demand for newly graduated engineers to possess the basic skills of computational methods for heat and mass transfer and fluid dynamics.

The text also includes an introduction to Computational Fluid Dynamics, a well-established method in the design of fluid machinery and heat transfer applications.

A DVD accompanies every new printed copy of the book and contains the source code, MATLAB files.