Encyclopedia of thermal packaging. Set 1, Thermal packaging techniques. Volumes 1-6 /

The first set of the Encyclopedia, Thermal Packaging Techniques, focuses on the technology "building blocks" used to assemble a complete thermal management system and provide detailed descriptions of the underlying phenomena, modeling equations, and correlations, as well as guidance for ac...

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Bibliographic Details
Corporate Author World Scientific (Firm)
Other Authors Bar-Cohen, Avram, 1946-
Format Electronic eBook
LanguageEnglish
Published Singapore ; Hackensack, N.J. : World Scientific Pub. Co., ©2013.
Subjects
Electronic packaging.
Heat sinks (Electronics)
Insulation (Heat)
elektronické knihy
electronic books
Online AccessFull text
ISBN9789814313797
9814313793
9781628700992
1628700998
9789814313780
9789814313803
9814313785
9814313807
Physical Description1 online resource

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Table of Contents:
  • Ch. 1. Introduction. 1.1. Physics and applications of microchannels. 1.2. Use of microchannels in electronics cooling
  • chapter 2. Design and optimization of single-phase microchannel heat sinks. 2.1. Prediction of heat transfer coefficient. 2.2. Prediction of pressure drop. 2.3. Optimization of heat transfer performance. 2.4. Importance of inlet manifold design. 2.5. Hot-spot thermal management. 2.6. System-level design and optimization
  • chapter 3. Two-phase operation of microchannel heat sinks. 3.1. Fundamentals of two-phase transport in microchannel. 3.2. Macroscale versus microscale boiling. 3.3. Flow regime maps
  • chapter 4. Boiling heat transfer at small scales. 4.1. Saturated boiling in microchannels. 4.2. Heat transfer in boiling and two-phase flow. 4.3. Effect of geometrical and flow parameters. 4.4. Empirical predictions of thermal performance. 4.5. Physics-based modeling of boiling heat transfer
  • 5. Pressure drop in two-phase flow. 5.1. Two-phase flow pressure drop. 5.2. Empirical prediction of two-phase pressure drop. 5.3. Regime-based modeling of two-phase pressure drop
  • 6. Micropumps and pumping requirements. 6.1. Microscale pumping technologies. 6.2. Mechanical displacement micropumping techniques. 6.3. Electro- and magneto-kinetic micropumping techniques. 6.4. Pump selection
  • 7. Challenges in implementation. 7.1. Effect of dissolved air on system performance. 7.2. System instabilities for boiling in microchannels. 7.3. Critical heat flux
  • chapter 8. Measurement techniques. 8.1. Conventional techniques. 8.2. Microscale temperature measurement. 8.3. Optical flow measurements. 8.4. Micro-PIV and IR Micro-PIV. 8.5. Laser-induced fluorescence thermometry.

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