tailieunhanh - CONVECTIVE HEAT AND MASS TRANSFER

This book was developed by Professor S. Mostafa Ghiaasiaan during 10 years of teaching a graduate-level course on convection heat and mass transfer. The book is ideal for a graduate course dealing with the- ory and practice of convection heat and mass transfer. The book treats well-established theory and practice on the one hand; on the other hand, it is enriched by modern areas such as flow in microchannels and computational fluid dynamics–based design and analysis methods. The book is primarily concerned with convective heat transfer. Essentials of mass transfer are also covered. The mass transfer material and prob- lems are presented such that they can be easily skipped,. | CONVECTIVE HEAT AND MASS TRANSFER This book was developed by Professor S. Mostafa Ghiaasiaan during 10 years of teaching a graduate-level course on convection heat and mass transfer. The book is ideal for a graduate course dealing with theory and practice of convection heat and mass transfer. The book treats well-established theory and practice on the one hand on the other hand it is enriched by modern areas such as flow in microchannels and computational fluid dynamics-based design and analysis methods. The book is primarily concerned with convective heat transfer. Essentials of mass transfer are also covered. The mass transfer material and problems are presented such that they can be easily skipped should that be preferred. The book is richly enhanced by exercises and end-of-chapter problems. Solutions are available for qualified instructors. The book includes 17 appendices providing compilations of most essential properties and mathematical information for analysis of convective heat and mass transfer processes. Professor S. Mostafa Ghiaasiaan has been a member of the Woodruff School of Mechanical Engineering at Georgia Institute of Technology since 1991 after receiving a . in Thermal Science from the University of California Los Angeles in 1983 and working in the aerospace and nuclear power industry for eight years. His industrial research and development activity was on modeling and simulation of transport processes multiphase flow and nuclear reactor thermal hydraulics and safety. His current research areas include nuclear reactor thermal hydraulics particle transport cryogenics and cryocoolers and multiphase flow and change-of-phase heat transfer in microchannels. He has more than 150 academic publications including 90 journal articles on transport phenomena and multiphase flow. Among the honors he has received for his publications are the Chemical Engineering Science s Most Cited Paper for 2003-2006 Award the National Heat Transfer Conference Best Paper

• Kĩ thuật Viễn thông
• Eulerian Frames
• Mass Conservation
• Conservation of Momentum
• Conservation of Energy
• Multicomponent Mixtures
• BMC Chemistry
• Derivative transformation
• Advanced ratio difference
• Induced ratio difference normalized spectra
• Isosbestic point
• Dual wave length