Fundamentals of Heat and Mass Transfer, Adrienne S. Lavine, David P. DeWitt, John Wiley & Sons, 2011, 0470501979, 9780470501979, 1048 pages. Introduction to Heat and Mass Transfer is the gold standard of heat transfer pedagogy for more than 30 years, with a commitment to continuous improvement by four authors having more than 150 years of combined experience in heat transfer education, research and practice. Using a rigorous and systematic problem-solving methodology pioneered by this text, it is abundantly filled with examples and problems that reveal the richness and beauty of the discipline. This edition maintains its foundation in the four central learning objectives for students and also makes heat and mass transfer more approachable with an additional emphasis on the fundamental concepts, as well as highlighting the relevance of those ideas with exciting applications to the most critical issues of today and the coming decades: energy and the environment. An updated version of Interactive Heat Transfer (IHT) software makes it even easier to efficiently and accurately solve problems.. DOWNLOAD HERE Heat Transfer A Practical Approach, Yunus A. Çengel, 2003, Heat, 932 pages. . Compr. Engineering Heat Transfer , Mahesh M. Rathore, 2000, Heat, 384 pages. . FUNDAMENTALS OF HEAT AND MASS TRANSFER , B. K. VENKANNA, Jan 1, 2010, , . "This comprehensive text on the basics of heat and mass transfer provides a well-balanced treatment of theory and mathematical and empirical methods used for solving a variety .... Basic heat transfer , Frank Kreith, William Z. Black, 1980, Science, 556 pages. . Fundamentals of heat transfer , Heinrich Gröber, Sigmund Erk, 1961, Science, 527 pages. . Fundamentals of Heat and Mass Transfer , C. P. Kothandaraman, 2006, Electronic books, 712 pages. Salient Features# A Number Of Complex Problems Along With The Solutions Are Provided# Objective Type Questions For Self-Evaluation And Better Understanding Of The Subject .... Fundamentals Of Momentum, Heat, And Mass Transfer, 4Th Ed , James R. Welty, Charles E. Wicks, Gregory Rorrer, Robert E. Wilson, Oct 1, 2009, , 776 pages. Fundamentals of Momentum, Heat, and Mass Transfer provides a unified treatment of momentum transfer (fluid mechanics), heat transfer and mass transfer. The treatment of the .... An introduction to mass and heat transfer principles of analysis and design, Stanley Middleman, 1998, Science, 672 pages. This highly recommended book on transport phenomena shows readers how to develop mathematical representations (models) of physical phenomena. The key elements in model .... Heat And Mass Transfer , Nag, 2011, Heat, 798 pages. . Heat transfer , Alan Jesse Chapman, 1984, Science, 608 pages. . Fundamentals of heat transfer , Alan Jesse Chapman, Mar 1, 1987, Science, 751 pages. . Fluid Mechanics and Transfer Processes , John Menzies Kay, R. M. Nedderman, 1985, Technology & Engineering, 602 pages. This textbook deals with the fundamental principles of fluid dynamics, heat and mass transfer. The basic equations governing the convective transfer by fluid motion of matter .... CONDUCTION OF HEAT IN SOLIDS. 2nde edition, Edition anglaise , H. S. (Horatio Scott) Carslaw, J. C. (John Conrad) Jaeger, 1986, Science, 510 pages. This classic account describes the known exact solutions of problems of heat flow, with detailed discussion of all the most important boundary value problems..
Fundamentals of Heat and Mass Transfer , Thirumaleshwar, 2006, , 766 pages. . Heat and mass transfer , Kurt C. Rolle, 2000, Science, 547 pages. Combining theory, real-world applications, experimental methods, and mathematical rigor, this comprehensive guide provides a solid and rational introduction to the scientific .... Heat transfer , Frank M. White, 1984, Science, 588 pages. . Engineering Heat Transfer , Mahesh M. Rathore, Raul Raymond Kapuno, Aug 24, 2011, Technology & Engineering, 1178 pages. Intended as a textbook for undergraduate courses in heat transfer for students of mechanical, chemical, aeronautical, and metallurgical engineering, or as a reference for .... Introduction to Heat and Mass Transfer is the gold standard of heat transfer pedagogy for more than 30 years, with a commitment to continuous improvement by four authors having more than 150 years of combined experience in heat transfer education, research and practice. Using a rigorous and systematic problem-solving methodology pioneered by this text, it is abundantly filled with examples and problems that reveal the richness and beauty of the discipline. This edition maintains its foundation in the four central learning objectives for students and also makes heat and mass transfer more approachable with an additional emphasis on the fundamental concepts, as well as highlighting the relevance of those ideas with exciting applications to the most critical issues of today and the coming decades: energy and the environment. An updated version of Interactive Heat Transfer (IHT) software makes it even easier to efficiently and accurately solve problems. aerogel aluminum ambient air approximated assumed boundary conditions Calculate Chapter chip Consider Constant properties contact resistance control volume convection coefficient convection heat transfer cooling coordinates cylinder determine diameter efficiency electrical resistance emissivity energy balance example exposed expression Figure finite-difference equation fluid Fourier’s law fuel cell heat engine heat equation heat flux heat loss heat rate heat sink heat transfer coefficient heat transfer rate heater increasing initial inner surface insulation irradiation isothermal J/kg layer liquid material mechanical energy medium nodal node obtain one-dimensional outer surface perature plane wall plate plot problems radiation exchange radius rate equations rate of heat Rt,c Schematic silicon sketch the temperature solid specific heat spherical steady-state conditions steady-state temperature surface temperature tempera temperature distribution temperature gradient thermal conductivity thermal energy thermal resistance thermocouple thermodynamics thickness tion Tsur tube ture two-dimensional uniform temperature unit length volumetric W/mK This bestselling book in the field provides a complete introduction to the physical origins of heat and mass transfer. Noted for its crystal clear presentation and easy-to-follow problem solving methodology, Incropera and Dewitt's systematic approach to the first law develops reader confidence in using this essential tool for thermal analysis. Readers will learn the meaning of the terminology and physical principles of heat transfer as well as how to use requisite inputs for computing heat transfer rates and/or material temperatures. Respected for its readability, comprehensiveness, and relevance, Incropera and DeWitt’s text is the recognized standard for learning heat and mass transfer. This text combines detailed coverage with the resources students need to learn the concepts and apply them to solving realistic and relevant problems. Using a rigorous and systematic problem-solving methodology, the text is filled with examples and problems that reveal the richness and beauty of the discipline. Completely updated with a modern graphical user interface and better graphing tools, Interactive Heat Transfer (IHT) software will help you learn how to build thermal models, solve specific conditions, and explore the effects of multiple parameter variations. IHT is now capable of solving 300+ equations. The Finite Element Heat Transfer software enhances capabilities for treating steady-state and transient one- and two-dimensional conduction problems.
Frank P. Incropera is currently Matthew H. McCloskey Dean of the College of Engineering at Univeristy of Notre Dame. Professor Incropera received his B.S.M.E. from M.I.T. and his M.S.M.E. and Ph.D. from Stanford University, all in mechanical engineering. In 1998, he became the Clifford and Evelyn Brosey Professor of Mechanical Engineering. Professor Incropera has received four major Purdue teaching awards and was the 1982 recipient of the ASEE Ralph Coats Roe Award for excellence in teaching. He was the 1983 recipient of the ASEE George Westinghouse Award for achievements in teaching and research. In 1984 he became a Fellow of the ASME, and in 1988 he received the ASME Heat Transfer Memorial Award for twenty years of research accomplishments in the fields of plasma heat transfer, radiative transfer in participating media, and double-diffusive and mixed convection. In 1988 he was also recipient of the Senior Scientists Award of the Alexander von Humboldt Foundation and recipient of the Melville Medal for the best original paper published by ASME. In 1995 he received the Worcester Reed Warner Medal of ASME for contributions to the fundamental literature of heat transfer and his textbooks on the subject. I find this book very annoying. Although it reads reasonably well, the authors bury significant concepts in unexpected areas of the text. I have found it tremendously confusing when to use film temperature, mean temperature, surface temperature, etc. When to use them is not listed in the equations, sometimes they are buried in an example problem several pages later. One of the biggest annoyances for me is in chapter 7 (page 440). For heat flow through banks of tubes, they say to use the mean of the inlet and outlet temps to calculate the Nusselt number (eq 7.64). They make no mention as to how to solve if you do not know the outlet temp. Buried in example 7.7, you might notice that they use the inlet temperature to solve for the Nusselt number! This is not what the description of equation 7.64 says. Buried in the fine print of example 7.7 on page 446 is that you may need to iterate values until you get the desired accuracy (and if you do not know the outlet temp - they do not say this). Why don't they just come out and say this in the discussion and theory, rather than bury big ideas in the examples? Another example is in chapter 9 for vertical channels. They do not say anything about how to come up with a basic spacing, S. If you look at example 9.1 an equation is provided for thermal boundary layer thickness. Is "S" equal to twice this value? The reason I am on-line is I am looking for another textbook that can explain concepts better. Much of this book is ok to read, so I would not give it a terrible rating. It is a difficult subject that could be made easier. I also find it ridiculous that they do not provide any problems with answers in the back of the book. What good does it do to spend hours on a problem and not know if you have a good answer? At least a handful of problems would be helpful. I honestly didn't enjoy this book when I was in school, but now working as a mechanical engineer in the chemical sector, I can honestly say that this book is worth its weight in gold. If you're ever going to solve real problems (tube exchangers, tube bundle cross flow), then this is the book you need to keep on your shelf. Even if solving complex problems, the book can give you basic theory for which you to expand on with more accurate models. I'd recommend to any chemical, mechanical or electric engineer that needs to deal with heat transfer. If you're a student, then pay extra attention, because the theories in this book pop up daily. Completely updated, the seventh edition provides engineers with an in-depth look at the key concepts in the field. It incorporates new discussions on emerging areas of heat transfer, discussing technologies that are related to nanotechnology, biomedical engineering and alternative energy. The example problems are also updated to better show how to apply the material. And as engineers follow the rigorous and systematic problem-solving methodology, they’ll gain an appreciation for the richness and beauty of the discipline. Also a mechanical engineering major. I really like how the book explains the theory behind heat transfer, it is very detailed and clear, shows derivations, and different cases. When it gets to convection it offers derivations of the navier-stokes equations online. However it has few examples and I found I had to keep going through the chapters to figure out the homework, which is fine but kind of annoying and time consuming. I understand that it is a complex topic, but they can at least offer a bit more examples so students can understand the homework, and maybe some answers, at
least odd or even. (my whole class complained about the book to the professor, telling him it was impossible and that the heat transfer book by Cengel was better. I think this is a main reason the prof's pick it. Also no solution manual available to students.). When it comes to material this book has more compared to Cengel's, which is vague on theory. Overall any book by the Wiley publishing company will most likely have no answers or solutions manual. Just wanted to add that. If I ever become a professor I will never ever put that super strict style on my students. I believe it hurts learning. My rating. 3 stars. The authors not only know what they are talking about in the text, they are able to bring it down to a college student's level. Because Heat Transfer is difficult to understand, the authors take a lot of time explaining the why as well as the what and how. Along with the material from my Heat Transfer course, the text was amazingly helpful for filling in gaps in understanding for practically every topic. The examples provided were most of the time extremely useful for seeing the concepts in action with respect to the equations and correlations. Occasionally, however, the examples were used to reveal the nature of a specific phenomenon, not necessarily to help with problems. Overall, the examples were a great demonstration of the concepts. The problems assigned were generally extremely difficult and some were not even possible to understand without the aid of the answers or the solutions from the instructor. When looking at the examples, it was frustrating seeing how the questions asked in the examples were not as challenging as the problems. In a sense, the book showed us how to walk and then expected us to run. If you have a solutions manual of some sort, then the problems will be much more useful to learn from. The tables and charts provided show almost all of the correlations that you would ever want to use. Plenty of mathematical correlations are shown in the back of the text and many are dispersed through the text. With good tabulation, the tables provide a quick way to solve certain problems without nasty calculations. Used this book for a heat transfer course and a heat transfer lab class, so I've become pretty familiar with it. I think it's a great book. Heat transfer is a large and encompassing topic and I think this book does a great of presenting it in as straight forward and organized fashion as possible. Some of the equations can get pretty ridiculous but the book does a great job of telling you what each and every term means. I learned everything from conduction, convection, and radiation to heat exchager design with this book and I have no major complaints about it. I would definitely recommend it. The text contains good information and many references, examples, and problems. However, the publisher, Wiley, never fails to disappoint. The "answers to selected exercises" typically found in an appendix, are only accessible by the companion website, which may as well mean they are nonexistent, given the number of students who use the companion website. Some equations have confusing formatting. The text is not error free, but with so much information, that is to be expected. For an introductory Heat and Mass Transfer course this book is very thorough (both verbally and mathematically) in explaining every concept and equation you need to know about. However, with that being said if you want to keep track of the important information in each chapter I highly recommend that you do quite a bit of underlining, highlighting, and note-taking while you read this book as it will help to keep organized and when you need to reference a chapter you will not have to scan through all of the less important information. The chapters also give detailed example problems to look at and use as reference when doing any problems from the end of the chapters. Chegg’s Fundamentals of Heat and Mass Transfer solutions manual is one of hundreds of solution manuals Chegg has to offer. Get help one step at a time with our interactive step-by-step solution player. Our solution manuals are written by experts and subject enthusiasts so you can be assured of the highest quality. Chegg helps you learn one step at a time!
Chegg isn’t the same as a solution manual you buy in a book store or download off the web. Our interactive approach is the reason why customers keep coming back. Still stuck on something? We provide our users with access to thousands of experts and subject enthusiasts online all the time via our Chegg Study board. Help is just a few clicks away.