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Advances in Cryogenic Engineering

  • Book
  • © 2000

Overview

Editors:
  1. Quan-Sheng Shu

    1. AMAC International, Inc., Newport News, USA

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Part of the book series: Advances in Cryogenic Engineering (ACRE)

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Table of contents (123 chapters)

  1. Front Matter

    Pages i-iv
    Download chapter PDF

  2. Experimental Investigation of Thermal Shock Wave Induced by Gas Dynamic Shock Wave Impingement

    • H. S. Yang, H. Nagai, N. Takano, M. Murakami
    Pages 961-968

  3. Approximate Solution for Transient Heat Transfer in Static Turbulent He II

    • B. Baudouy
    Pages 969-976

  4. A He II Heat Exchanger Test Unit Designed for the LHC Interaction Region Magnets

    • Ch. Darve, Y. Huang, J. Kerby, T. Nicol, T. Peterson
    Pages 977-984

  5. A Facility for Accurate Heat Load and Mass Leak Measurements on Superfluid Helium Valves

    • A. Bézaguet, L. Dufay, G. Ferlin, R. Losserand-Madoux, A. Perin, G. Vandoni et al.
    Pages 985-992

  6. Flow in Horizontal Two Phase He II /Vapor

    • S. W. Van Sciver, J. S. Panek, D. Celik
    Pages 993-1000

  7. Numerical Study of Two-Phase Helium II Stratified Channel Flow

    • Y. Xiang, N. N. Filina, S. W. Van Sciver, J. G. Weisend II, S. Wolff
    Pages 1001-1008

  8. He II Two Phase Flow in an Inclinable 22 m Long Line

    • B. Rousset, A. Gauthier, B. Jager, R. van Weelderen
    Pages 1009-1016

  9. Investigation of Noisy Film Boiling Under Various Thermal Conditions in He II

    • P. Zhang, M. Murakami, R. Z. Wang, Y. Takashima
    Pages 1017-1024

  10. Thin-Film Thermometer and Heater Design for the Detection and Generation of Second Sound Shock Pulses

    • D. K. Hilton, M. R. Smith, S. W. Van Sciver
    Pages 1025-1032

  11. Steady State Heat Transfer Characteristics in He I and He II with a Copper Surface

    • A. Iwamoto, R. Maekawa, T. Mito, S. Satoh
    Pages 1033-1040

  12. Film Boiling on a Horizontal Cylinder in Saturated and Subcooled Helium II

    • K. Hama, K. Hata, M. Shiotsu
    Pages 1041-1048

  13. Study of Shock Waves and Phase Transition in He II by Using a Superfluid Shock Tube Facility

    • H. Nagai, N. Takano, H. S. Yang, M. Murakami
    Pages 1049-1056

  14. Experimental Study on the Transition of He II Boiling Modes with the Hydrostatic Pressure Around the Lambda Temperature

    • Y. Takashima, M. Murakami, T. Toyoshima
    Pages 1057-1064

  15. Transient Heat Transfer Produced by a Stepwise Heat Input to a Flat Plate on One End of a Rectangular Duct Containing Pressurized Helium II

    • M. Shiotsu, K. Hata, K. Hama, Y. Shirai
    Pages 1065-1072

  16. Critical Heat Fluxes on a Flat Plate Attached to One End of a Rectangular Duct Containing Pressurized He II

    • H. Tatsumoto, K. Hata, K. Hama, Y. Shirai, M. Shiotsu
    Pages 1073-1080

  17. Inferring the Structure of Porous Materials Using Superfluid Helium

    • H. A. Snyder
    Pages 1081-1088

  18. Heat Transfer Peculiarities and Their Application to Non-Drained Liquified Gas Storage

    • Zh. A. Suprunova, V. E. Seriogin, A. V. Latchenko
    Pages 1089-1094

  19. Thermodynamic Analysis of Temperature Increase and Energy Consumption in a Cryogenic Crusher

    • Y. Liang, W. Tang, P. R. Yang, Y. Y. Guo
    Pages 1095-1102

  20. Stability and Control of Supercritical Helium Flow in the LHC Circuits

    • E. Hatchadourian
    Pages 1103-1110
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Keywords

About this book

In recent years, the technology of cryogenic comminution has been widely applied in the field of chemical engineering, food making, medicine production, and particularly in recycling of waste materials. Because of the increasing pollution of waste tires and the shortage of raw rubber resource, the recycling process for waste rubber products has become important and commercially viable. This technology has shown a great number of advantages such as causing no environmental pollution, requiring low energy consumption and producing high quality products. Hence, the normal crusher which was used to reclaim materials, such as waste tires, nylon, plastic and many polymer materials at atmospheric 12 temperature is being replaced by a cryogenic crusher. • In the cryogenic crusher, the property of the milled material is usually very sensitive to temperature change. When a crusher is in operation, it will generate a great deal of heat that causes the material temperature increased. Once the temperature increases over the vitrification temperature, the material property will change and lose the brittle behavior causing the energy consumption to rise sharply. Consequently, the comminution process cannot be continued. Therefore, it is believed that the cryogenic crusher is the most critical component in the cryogenic comminution system. The research on the temperature increase and energy consumption in the cryogenic crusher is not only to reduce the energy consumption of the crasher, but also to reduce the energy consumption of the cryogenic system.

Reviews

about previous volumes:
`The Advances in Cryogenic Engineering series provides a timely and authoritative entrée to the field for the outsider. For the insider, it is a must.'
Materials Science and Engineering
`Provides in-depth coverage of current research on technical materials of primary interest in the cryogenic engineering community, reviews important breakthroughs of the past, and outlines directions for future research.'
Cryogenic Information Report
`An interdisciplinary review of all areas of low-temperature technology, this significant series annually updates existing knowledge of cryogenic processes, equipment, instrumentation, properties, and applications....The literature source for many important new discoveries in the field.'
IEEE Spectrum

Editors and Affiliations

  • AMAC International, Inc., Newport News, USA

    Quan-Sheng Shu

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