جزییات کتاب
A completely updated edition of the acclaimed single-volume reference for heat transfer and the thermal sciences This Second Edition of Handbook of Numerical Heat Transfer covers the basic equations for numerical method calculations regarding heat transfer problems and applies these to problems encountered in aerospace, nuclear power, chemical processes, electronic packaging, and other related areas of mechanical engineering. As with the first edition, this complete revision presents comprehensive but accessible coverage of the necessary formulations, numerical schemes, and innovative solution techniques for solving problems of heat and mass transfer and related fluid flows. Featuring contributions from some of the most prominent authorities in the field, articles are grouped by major sets of methods and functions, with the text describing new and improved, as well as standard, procedures. Handbook of Numerical Heat Transfer, Second Edition includes: * Updated coverage of parabolic systems, hyperbolic systems, integral-and integro-differential systems, Monte Carlo and perturbation methods, and inverse problems * Usable computer programs that allow quick applications to aerospace, chemical, nuclear, and electronic packaging industries * User-friendly nomenclature listings include all the symbols used in each chapter so that chapter-specific symbols are readily availableContent: Chapter 1 Survey of Numerical Methods (pages 1–51): J. Y. Murthy, W. J. Minkowycz, E. M. Sparrow and S. R. MathurChapter 2 Finite?Difference Method (pages 53–90): Richard H. PletcherChapter 3 Finite?Element Method (pages 91–123): Juan C. HeinrichChapter 4 Boundary?Element Method (pages 125–165): A. J. Kassab, L. C. Wrobel, R. A. Bialecki and E. A. DivoChapter 5 Large Eddy Simulation of Heat and Mass Transport in Turbulent Flows (pages 167–189): Cyrus K. Madnia, Farhad A. Jaberi and Peyman GiviChapter 6 Control?Volume?Based Finite?Difference and Finite?Element Methods (pages 191–224): B. R. Baliga and N. AtabakiChapter 7 Meshless Methods (pages 225–247): D. W. PepperChapter 8 Monte Carlo Methods (pages 249–295): A. Haji?Sheikh and J. R. HowellChapter 9 Discrete?Ordinates and Finite?Volume Methods for Radiative Heat Transfer (pages 297–323): J. C. Chai and S. V. PatankarChapter 10 Pressure?Based Algorithms for Single?Fluid and Multifluid Flows (pages 325–367): F. Moukalled and M. DarwishChapter 11 Numerical Modeling of Heat Transfer in Wall?Adjacent Turbulent Flows (pages 369–388): T. J. Craft, S. E. Gant, A. V. Gerasimov, H. Iacovides and B. E. LaunderChapter 12 A Critical Systhesis of Pertinent Models for Turbulent Transport through Porous Media (pages 389–416): K. Vafai, A. Bejan, W. J. Minkowycz and K. KhanaferChapter 13 Verification and Validation of Computational Heat Transfer (pages 417–442): Dominique Pelletier and Patrick J. RoacheChapter 14 Sensitivity Analysis and Uncertainty Propagation of Computational Models (pages 443–469): B. F. Blackwell and K. J. DowdingChapter 15 Computational Geometry, Grid Generation, and Adaptive Grids (pages 471–492): Graham F. CareyChapter 16 Hybrid Methods and Symbolic Computations (pages 493–522): Renato M. Cotta and Mikhail D. MikhailovChapter 17 Inverse Problems in Heat Transfer (pages 523–557): Nicholas ZabarasChapter 18 Moving?Boundary Problems (pages 559–592): Wei ShyyChapter 19 Numerical Methods for Phase?Change Problems (pages 593–622): V. R. VollerChapter 20 Computational Techniques for Microscale Heat Transfer (pages 623–657): Da Yu “Robert” Tzou and James C. DowellChapter 21 Molecular Dynamics Method for Micro/Nano Systems (pages 659–695): Shigeo MaruyamaChapter 22 Eulerian?Lagrangian Simulations of Particle/Droplet?Laden Turbulent Flows (pages 697–728): F. Mashayek and W. J. MinkowyczChapter 23 Numerical Modeling of Manufacturing Processes (pages 729–783): Yogesh JaluriaChapter 24 Computational Methods in Materials Processing (pages 785–819): R. PitchumaniChapter 25 Thermal Modeling of Technology Infrastructure Facilities: A Case Study of Data Centers (pages 821–849): J. Rambo and Y. JoshiChapter 26 Numerical Bioheat Transfer (pages 851–893): B. RubinskyChapter 27 High?Performance Computing for Fluid Flow and Heat Transfer (pages 895–920): D. W. Pepper and J. M. LombardoChapter 28 Overview of Numerical Methods and Recommendations (pages 921–945): S. R. Mathur, W. J. Minkowycz, E. M. Sparrow and J. Y. Murthy