Encyclopedia of Two-Phase Heat Transfer and Flow IV: Modeling Methodologies, Boiling of CO₂, and Micro-Two-Phase Cooling (A 4-Volume Set) -Original PDF
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Encyclopedia of Two-Phase Heat Transfer and Flow IV: Modeling Methodologies, Boiling of CO₂, and Micro-Two-Phase Cooling (A 4-Volume Set) -Original PDF

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By John R Thome(Author), John R Thome(Editor)

Size : 172.74 MB

Set IV is a new addition to the previous Sets I, II and III. It contains 23 invited chapters from international specialists on the topics of numerical modeling of pulsating heat pipes and of slug flows with evaporation; lattice Boltzmann modeling of pool boiling; fundamentals of boiling in microchannels and microfin tubes, CO2 and nanofluids; testing and modeling of micro-two-phase cooling systems for electronics; and various special topics (flow separation in microfluidics, two-phase sensors, wetting of anisotropic surfaces, ultra-compact heat exchangers, etc.). The invited authors are leading university researchers and well-known engineers from leading corporate research laboratories (ABB, IBM, Nokia Bell Labs). Numerous ‘must read’ chapters are also included here for the two-phase community. Set IV constitutes a ‘must have’ engineering and research reference together with previous Sets I, II and III for thermal engineering researchers and practitioners.

Contents:

  • Volume 1: Modeling of Two-Phase Flows and Heat Transfer:
    • Pulsating Heat Pipes: Experimental Analysis, Design and Applications
    • Pulsating Heat Pipes: Basics of Functioning and Modeling
    • 1D Mechanistic Model and Simulation Code for Closed-Loop Pulsating Heat Pipes
    • Lattice Boltzmann Simulations of Saturated Pool Boiling from Smooth and Rough Horizontal Surfaces
    • Stability Analysis and Direct Numerical Simulation for Two-Phase Flows and Heat Transfer: A Complementary Approach
    • Numerical Modeling of Vapor Bubbles During Flow Boiling Inside Microchannels
  • Volume 2: Boiling of CO₂ and Nanofluids:
    • Flow Boiling of Carbon Dioxide at Low to Medium Reduced Pressures — Part 1. Carbon Dioxide Thermodynamic and Thermophysical Properties
    • Flow Boiling of Carbon Dioxide at Low to Medium Reduced Pressures — Part 2. Flow Pattern Maps and Pressure Drop: Experiments and Prediction Methods
    • Flow Boiling of Carbon Dioxide at Low to Medium Reduced Pressures — Part 3. Heat Transfer: Experiments and Prediction Methods
    • Flow Boiling of Carbon Dioxide at Low to Medium Reduced Pressures — Part 4. Effect of Lubricants on Heat Transfer and Pressure Drop
    • Boiling Heat Transfer and Critical Heat Flux Phenomena with Nanofluids: Fundamentals, Mechanisms and Challenges
  • Volume 3: Micro-Two-Phase Cooling Systems:
    • Disruptive Two-Phase Cooling Systems for High-Power Telecommunications Electronics
    • Radial Hierachical Microfluidic Two-Phase Cooling for 3D Integrated Devices
    • Flow Boiling and Two-Phase Flows in Single-Microchannels and Microchannel Heat Sinks: Fundamentals, Differences, and New Areas for Research
    • Flow Boiling in Mini to Microdiameter Channels
    • Mini-Thermosyphons Using Microchannel and Micro-Pin Fin Evaporators with Flow and Thermal Visualization
    • Experimental Evaluation of a Passive Thermosyphon Cooling System for Power Electronics
  • Volume 4: Special Two-Phase Flow and Boiling Topics:
    • Flow Boiling and Condensation within an Ultra-Compact Microchannel Heat Exchange
    • Phase Separation Microfluidics for Heat Transfer Applications
    • Experimental Study and Modeling of Flow Boiling in Tube in Normal and Microgravity Conditions
    • Wire-Mesh Sensors and Cognate Measuring Techniques
    • Wetting on Anisotropic Surfaces
    • Two-Phase Flow and Boiling in Micro/Minichannels and Microfin Tubes

Readership: Graduate students, researchers and professional in the fields of mechanical, refrigeration, chemical, nuclear and electronics engineering on the important topics of two-phase heat transfer and two-phase flow.

Product details

  • Hardcover: 1300 pages
  • Publisher: World Scientific Publishing Co Pte Ltd (June 27, 2018)
  • Language: English
  • ISBN-10: 9813234369
  • ISBN-13: 978-9813234369