This book provides a practical studyof modern heat pipe engineering, discussing how it can be optimized for use on a wider scale. An introduction to operationaland design principles, this book offers a review of heat and mass transfer theory relevant to performance, leading into and exploration of the use of heat pipes, particularlyin high-heat flux applications and in situations in which there is anycombination of non-uniform heat loading, limited airflow over the heat generatingcomponents, and space or weight constraints. Key implementation challenges are tackled, including load-balancing,…mehr
This book provides a practical studyof modern heat pipe engineering, discussing how it can be optimized for use on a wider scale. An introduction to operationaland design principles, this book offers a review of heat and mass transfer theory relevant to performance, leading into and exploration of the use of heat pipes, particularlyin high-heat flux applications and in situations in which there is anycombination of non-uniform heat loading, limited airflow over the heat generatingcomponents, and space or weight constraints. Key implementation challenges are tackled, including load-balancing, materials characteristics, operating temperature ranges, thermal resistance, and operating orientation.
With its presentation of mathematicalmodels to calculate heat transfer limitations and temperature gradient of bothhigh- and low-temperature heat pipes, the book compares calculated results withthe available experimental data. It also includes a series of computerprograms developed by theauthor to support presented data, aid design, and predict performance.
Dr. Bahman Zohuri is founder of Galaxy Advanced Engineering, Inc., a consulting company that he formed upon leaving the semiconductor and defense industries after many years as a Senior Process Engineer for corporations including Westinghouse and Intel, and then as Senior Chief Scientist at Lockheed Missile and Aerospace Corporation. During his time with Westinghouse Electric Corporation, he performed thermal hydraulic analysis and natural circulation for Inherent Shutdown Heat Removal System (ISHRS) in the core of a Liquid Metal Fast Breeder Reactor (LMFBR). While at Lockheed, he was responsible for the study of vulnerability, survivability and component radiation and laser hardening for Defense Support Program (DSP), Boost Surveillance and Tracking Satellites (BSTS) and Space Surveillance and Tracking Satellites (SSTS). He also performed analysis of characteristics of laser beam and nuclear radiation interaction with materials, Transient Radiation Effects in Electronics (TREE), Electromagnetic Pulse (EMP), System Generated Electromagnetic Pulse (SGEMP), Single-Event Upset (SEU), Blast and, Thermo-mechanical, hardness assurance, maintenance, and device technology. His consultancy clients have included Sandia National Laboratories, and he holds patents in areas such as the design of diffusion furnaces, and Laser Activated Radioactive Decay. He is the author of several books on heat transfer and directed energy weapons technologies.
Inhaltsangabe
Introduction.- Basic Principles of Heat Pipes and History.- Heat Pipe Theory and Modeling.- Mathematical Modeling and Available Computer Codes.- Application of Heat Pipes in Industry.- Heat Pipe Manufacturing.- Other Types of Heat Pipes.- Appendix A: Dimensional Equivalents and Physical Constants.- Appendix B: Properties of Solid Materials.- Appendix C: Properties of Fluids.- Appendix D: Different Heat Pipe Design Examples.- Index.
Introduction.- Basic Principles of Heat Pipes and History.- Heat Pipe Theory and Modeling.- Mathematical Modeling and Available Computer Codes.- Application of Heat Pipes in Industry.- Heat Pipe Manufacturing.- Other Types of Heat Pipes.- Appendix A: Dimensional Equivalents and Physical Constants.- Appendix B: Properties of Solid Materials.- Appendix C: Properties of Fluids.- Appendix D: Different Heat Pipe Design Examples.- Index.
Introduction.- Basic Principles of Heat Pipes and History.- Heat Pipe Theory and Modeling.- Mathematical Modeling and Available Computer Codes.- Application of Heat Pipes in Industry.- Heat Pipe Manufacturing.- Other Types of Heat Pipes.- Appendix A: Dimensional Equivalents and Physical Constants.- Appendix B: Properties of Solid Materials.- Appendix C: Properties of Fluids.- Appendix D: Different Heat Pipe Design Examples.- Index.
Introduction.- Basic Principles of Heat Pipes and History.- Heat Pipe Theory and Modeling.- Mathematical Modeling and Available Computer Codes.- Application of Heat Pipes in Industry.- Heat Pipe Manufacturing.- Other Types of Heat Pipes.- Appendix A: Dimensional Equivalents and Physical Constants.- Appendix B: Properties of Solid Materials.- Appendix C: Properties of Fluids.- Appendix D: Different Heat Pipe Design Examples.- Index.
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