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Enhanced surfaces are geometrics with special shapes that promote much higher rates of heat transfer than smooth or plain surfaces. This title traces the advancement of heat transfer research in areas such as integral-fin and micro-fin tubes, complex plate-fin geometries, and micro-channels for single-phase and two-phase applications.
Convective Heat and Mass Transfer, Second Edition, is ideal for the graduate level study of convection heat and mass transfer, with coverage of well-established theory and practice as well as trending topics, such as nanoscale heat transfer and CFD. It is appropriate for both Mechanical and Chemical Engineering courses/modules.
THE ART OF MEASURING IN THERMAL SCIENCES is aimed at providing scholars, students, and people from industry a state of the art overview of good practises for conducting correct and sound measurements in thermal sciences. It is a guide for people who want to conduct advanced thermal experiments, using advanced measurement systems and techniques.
Shows how the derived equations are used to model physical problems. This work emphasizes on problems that are practical in nature. It also considers heat transfer in electrical-component applications.
The conjugate heat transfer (CHT) problem takes into account the thermal interaction between a body and fluid flowing over or through it, a key consideration in both mechanical and aerospace engineering. Presenting more than 100 solutions of non-isothermal and CHT problems, this title considers the approximate solutions of CHT problems.
Highlighting aspects of compressible fluid dynamics often missed in undergraduate courses, this text reviews background material and lays the foundation for more advanced and specialized courses such as Hypersonic Flow and Low Density Flows. With a wealth of updated and expanded material, this second edition includes numerical results obtained using a modern commercial computer fluid dynamics code, focuses on supporting software and practical applications, provides additional numerical and non-numerical problems, replaces BASIC with MATLAB® routines, and offers COMPROP2 software for compressible flow computation.
Written by world-renowned experts in their fields, this book presents the basic principles of industrial heat transfer enhancement. It introduces enhancement techniques and how they work, especially in the industrial environment. The contributors present the information in an interesting manner, using illustrations and definitions to enhance the text. They also include their own theoretical and practical results. Serving as a reference and guide for future research, this book presents a complete approach, from redesigning equipment to the use of nanofluids in industry.
DISTRICT COOLING: THEORY and PRACTICE provides a unique study of an energy cogeneration system, set up to bring chilled water to buildings (offices, apartment houses, and factories) needing cooling for air conditioning and refrigeration. In winter, the source for the cooling can often be sea water, so it is a cheaper resource than using electricity to run compressors for cooling. The related technology of District Heating has been an established engineering practice for many years, but District Cooling is a relatively new technology now being implemented in various parts of the world, including the USA, Arab Emirates and Kuwait, and Saudi Arabia. Existing books in the area are scarce, and do not address many of the crucial issues facing nations with high overall air temperatures, many of which are developing District Cooling plans using sea water. DISTRICT COOLING: THEORY & PRACTICE integrates the theory behind district cooling planning with the practical engineering approaches, so it can serve the policy makers, engineers, and planners whose efforts have to be coordinated and closely managed to make such systems effective and affordable. In times of rising worldwide temperatures, District Cooling is a way to provide needed cooling with energy conservation and sustainability. This book will be the most up-to-date and comprehensive study on the subject, with Case Studies describing real projects in detail.
Written by world-renowned experts in their fields, this book presents the basic principles of industrial heat transfer enhancement. It introduces enhancement techniques and how they work, especially in the industrial environment. The contributors present the information in an interesting manner, using illustrations and definitions to enhance the text. They also include their own theoretical and practical results. Serving as a reference and guide for future research, this book presents a complete approach, from redesigning equipment to the use of nanofluids in industry.
Assembling information from numerous publications, and including over 100 solutions of non-isothermal and CHT problems, the book reconsiders the approximate solutions of conjugate convective heat transfer problems. It discusses theory and modern modeling methods and presents applications in machinery operation and technological processes.
Heat Pumps for Cold Climate Heating can be used for reference by scientific researchers and engineers engaged in research on air source heat pump technology, product development and popularization; and by energy management and policy researchers.
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