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This book is essential for anyone involved in the design of high-performance heat exchangers or heat devices, also known as "second generation heat transfer technology." Enhanced surfaces are geometrics with special shapes that promote much higher rates of heat transfer than smooth or plain surfaces. This revision presents the subject matter just beyond the introductory level and 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.
Indeed, today "second generation" enhancement concepts are routing in the automotive and refrigeration industries to obtain lower cost, smaller heat exchanger size, and higher energy efficiency in system operation. And the aerospace, process, and power generation industries are not far behind.
Indeed, today "second generation" enhancement concepts are routing in the automotive and refrigeration industries to obtain lower cost, smaller heat exchanger size, and higher energy efficiency in system operation. And the aerospace, process, and power generation industries are not far behind.
Heat transfer enhancement in single-phase and two-phase flow heat exchangers in important in such industrial applications as power generating plant, process and chemical industry, heating, ventilation, air conditioning and refrigeration systems, and the cooling of electronic equipment. Energy savings are of primary importance in the design of such systems, leading to more efficient, environmentally friendly devices. This book provides invaluable information for such purposes.
This book is essential for anyone involved in the design of high-performance heat exchangers or heat devices, also known as second generation heat transfer technology. Enhanced surfaces are geometrics with special shapes that promote much higher rates of heat transfer than smooth or plain surfaces. This revision presents the subject matter just beyond the introductory level and 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.
Heat Exchangers: Principles, Design, and Applications Welcome to the world of heat exchangers, where the principles of thermodynamics and fluid dynamics come together to enable efficient heat transfer in a wide range of industrial processes. Heat exchangers are fundamental devices that play a crucial role in various industries, from power generation and chemical manufacturing to HVAC systems and renewable energy applications. They are essential for optimizing energy efficiency, enhancing process performance, and promoting sustainability. This book, "Heat Exchangers: Principles, Design, and Applications," aims to provide a comprehensive understanding of heat exchangers, covering their principles, design considerations, performance analysis, industrial applications, and emerging trends. It serves as a valuable resource for students, researchers, engineers, and professionals seeking to deepen their knowledge and explore the fascinating world of heat exchangers. The book begins with a solid foundation in the fundamentals of heat transfer, introducing concepts such as conduction, convection, and radiation. It then delves into the classification and types of heat exchangers, exploring their unique characteristics, advantages, and limitations. The design and construction of heat exchangers are thoroughly discussed, highlighting the key considerations in geometry, materials, and fabrication techniques. Performance analysis and optimization of heat exchangers are explored in detail, providing insights into heat transfer enhancement methods, pressure drop calculations, and thermal efficiency evaluation. Real-world examples and case studies showcase the practical application of heat exchangers in various industries, allowing readers to understand their role in power generation, chemical processes, HVAC systems, food and beverage production, and more. The book also examines the latest advancements in heat exchanger technology, including the integration of advanced materials, nanotechnology, additive manufacturing, and intelligent systems. It explores the future trends and outlook for heat exchangers, envisioning a greener and more sustainable future through energy efficiency improvements, waste heat recovery, and integration with renewable energy systems. Maintenance, troubleshooting, and safety considerations are given due importance, emphasizing the importance of regular inspections, maintenance practices, and adherence to safety protocols to ensure optimal performance and safe operation of heat exchangers. Throughout this book, we have strived to present complex concepts in a clear and accessible manner, incorporating illustrations, diagrams, and practical examples to enhance understanding. The content is supported by the latest research and industry practices, ensuring its relevance and reliability. As the author of this book, I am grateful for the opportunity to share my knowledge and passion for heat exchangers with you. I hope that this book serves as a valuable guide, sparking your curiosity, inspiring further exploration, and enabling you to contribute to the field of heat exchangers. I encourage you to dive into the following chapters, embark on a journey through the principles, design considerations, applications, and future trends of heat exchangers. May this book equip you with the necessary knowledge and insights to tackle real-world challenges, drive innovation, and contribute to a more efficient and sustainable world. Happy reading! Charles Nehme
This accessible book presents unconventional technologies in heat exchanger design that have the capacity to provide solutions to major concerns within the process and power-generating industries. Demonstrating the advantages and limits of these innovative heat exchangers, it also discusses micro- and nanostructure surfaces and micro-scale equipment, and introduces pillow-plate, helical and expanded metal baffle concepts. It offers step-by-step worked examples, which provide instructions for developing an initial configuration and are supported by clear, detailed drawings and pictures. Various types of heat exchangers are available, and they are widely used in all fields of industry for cooling or heating purposes, including in combustion engines. The market in 2012 was estimated to be U$ 42.7 billion and the global demand for heat exchangers is experiencing an annual growth of about 7.8 %. The market value is expected to reach U$ 57.9 billion in 2016, and approach U$ 78.16 billion in 2020. Providing a valuable introduction to students and researchers, this book offers clear and concise information to thermal engineers, mechanical engineers, process engineers and heat exchanger specialists.
Fundamentals of Heat Exchanger Design, Second Edition builds upon the widely-used First Edition, a text often considered to be the most prominent single-volume heat exchanger text on the market. The new and improved Second Edition serves as an equally comprehensive resource, updated to suit the latest technologies and design methods being used in the Heat Exchanger field. Written by First-Edition author Dusan P. Sekulic, this text addresses the latest developments in the industry, including a brand-new chapter on the manufacturing of compact heat exchangers. After opening with a basic introduction to heat exchanger types and design methods, the book goes on to cover more specialized topics such as such as the design of recuperators and regenerators, pressure drop analysis, geometric properties, flow friction, fouling and corrosion, and more. With many significant revisions throughout, this new edition offers more streamlined content while maintaining the consistent, detailed coverage of the fundamentals of the topic that readers appreciated in the First Edition. These unique features position the Second Edition of Fundamentals of Heat Exchanger Design as the ideal text for both engineering professionals and advanced students alike.
Principles of Enhanced Heat Transfer, Third Edition, is an invaluable resource for those involved in the design of high-performance heat exchangers and heat devices, also known as "second generation heat transfer technology." The text presents the subject matter at an intermediate level of difficulty, and traces the advancement of heat transfer technology in areas such as integral-fin and micro-fin tubes, complex plate-fin geometries, and micro-channels for single-phase and two-phase applications, for students, researchers, engineers, and technical managers. Overall this fully revised edition will provide students and engineers an updated version of this unique and classic work.