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Advances in Cryogenic Engineering: Proceedings of the 1969 Cryogenic Engineering Conference University of California at Los Angeles, June 1618, 1969 Softcover reprint of the original 1st ed. 1995 [Pehme köide]

  • Formaat: Paperback / softback, 484 pages, kõrgus x laius: 216x140 mm, kaal: 630 g, XI, 484 p., 1 Paperback / softback
  • Sari: Advances in Cryogenic Engineering 15
  • Ilmumisaeg: 28-May-2013
  • Kirjastus: Springer-Verlag New York Inc.
  • ISBN-10: 1475705158
  • ISBN-13: 9781475705157
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Advances in Cryogenic Engineering: Proceedings of the 1969 Cryogenic Engineering Conference University of California at Los Angeles, June 1618, 1969 Softcover reprint of the original 1st ed. 1995Suurem pilt
  • Formaat: Paperback / softback, 484 pages, kõrgus x laius: 216x140 mm, kaal: 630 g, XI, 484 p., 1 Paperback / softback
  • Sari: Advances in Cryogenic Engineering 15
  • Ilmumisaeg: 28-May-2013
  • Kirjastus: Springer-Verlag New York Inc.
  • ISBN-10: 1475705158
  • ISBN-13: 9781475705157
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781475705157.html
Märksõnad:
1969 marked the return of the Cryogenic Engineering Conference, now affiliated with the National Academy ofSciences through the Division ofEngineering, National Research Council, to the University of California at Los Angeles. As in 1962, the Cryogenic Engineering Conference gratefully acknowledges the assistance of UCLA, its Engineering and Physical Seien ces Extension Division, and in particular J. Dillon, S. Houston, H. L. Tallman, and their stafffor serving as hosts to the 1969 Cryogenic Engineering Conference. The National Academy of Sciences is a private honorary organization of more than 700 scientists and engineers elected on the basis of outstanding contributions to knowledge. Established by a Congressional Act of Incorporation, the Academy works to further science and its use for the general welfare by bringing together the most qualified individuals to deal with scientific and technological problems of broad significance. The National Research Council was organized as an agency of the National Academy of Sciences in 1916, to enable the broad community of U.S. scientists and engineers to associate their efforts with the Iimited membership of the Academy in service to science and the nation. The Division of Engineering is one of the eight major Divisions into which the National Research Council is organized for the conduct of its work. Its membership includes representatives of the nation's leading technical societies as weH as a number of members-at-Iarge. The Cryogenic Engineering Conference is an organization of the Division of Engineering.

Muu info

Springer Book Archives
LNG Technology.- A-1 Liquefied Natural GasA Broad Perspective.- A-2
Mixed Refrigerant Cascade Liquefiers for Natural GasDesign and
Optimization.- A-3 Computer Simulation of Natural Gas Liquefaction Plant
Processes.- A-4 Design Considerations for a Liquefied Natural Gas Pipeline.-
Thermodynamic Properties.- B-1 The Vapor Pressure of Liquid Fluorine.- B-2 A
Multipurpose Phase Equilibrium Apparatus to Study Mixtures of Cryogenic
Fluids: Application to Argon-Methane.- B-3 Adsorption Kinetics in a Ternary
System Containing Hydrogen.- B-4 The P-V-T Surface of Oxygen in the Critical
Region; Densities of Saturated Liquid and Vapor.- Fluid and Solid
Properties.- C-1 Thermal Conductivity Measurements on Fluid Hydrogen at 17 to
200°K and Pressures to 10 MN/m2.- C-2 Refractive Index of Liquid Deuterium.-
C-3 Measurements of the Dielectric Constant of Saturated Liquid Oxygen.- C-4
The Dielectric Strength of Cryogenic Fluids and Solid Insulators.- C-5
Low-Temperature Electrical Resistivity of Some Engineering Alloys.-
Mechanical Properties.- D-1 Tear Tests of 5083 Plate and of 5183 Welds in
5083 Plate and Extrusions.- D-2 Tensile Properties of Various Materials at
Cryogenic Temperatures.- D-3 Cryostat and Strain Measurement for Tensile
Tests to 1.5°K.- Superconductivity.- E-1 Magnetic Suspension and Guidance for
High-Speed Trains by Means of Superconducting Magnets and Eddy Currents.- E-2
A Superconducting (Nb-Ti) Liquid Helium Level Detector.- E-3 The Design of a
Rotating Dewar and Field Winding for a Superconducting Alternator.-
Superconducting Magnets.- F-1 Construction of the 12-ft Bubble Chamber
Superconducting-Magnet Cryostat.- F-2 Refrigeration Aspects of the ANL 12-ft
Bubble Chamber Superconducting-Magnet System.- F-3 BIM, A Large 10-MJ
Magnet.- F-4 The Design andOperation of an 88-kG 20-in.-Bore Superconducting
Magnet System.- F-5 Performance Tests of 51-cm-Bore Superconductive Magnets
for a Magnetic-Mirror Apparatus.- F-6 Force-Reduced Superconducting Toroidal
Magnet Coils.- F-7 The Detection of Transitions in Superconducting Coils.-
Heat Transfer.- G-1 Survey of Heat Transfer to Near-Critical Fluids.- G-2
Forced-Convection Heat Transfer to Nitrogen in the Vicinity of the Critical
Point.- G-3 Heat Transfer to Freon-12 in the Near-Critical Regime.- G-4
Nucleate Boiling of Nitrogen, Argon, and Carbon Monoxide from Atmospheric to
Near the Critical Pressure.- G-5 Transient Pool Boiling of Liquid Nitrogen
Due to a Square-Wave Heat Flux.- G-6 Heat-Transfer Coefficient Measurements
of Liquid Nitrogen Drops Undergoing Film Boiling.- G-7 Estimation of
Film-Boiling Heat Transfer Coefficients for Cylindrical Heaters in
Corresponding-States Fluids.- G-8 Saturated Film Boiling of Nitrogen from
Atmospheric to the Critical Pressure.- G-9 Peak Heat Flux Density of
Superfluid He II in Insulated Vertical Channels with Closed Ends and Wells.-
G-10 Correlation of the Depth Effect on Film-Boiling Heat Transfer in Liquid
Helium II.- G-11 Condensation Studies of Saturated Nitrogen Vapors.- G-12
Heat Exchanger Design for Rocket-Borne Cryogenic Air Samplers.- Insulation.-
H-1 A Guarded Electrical Cylindrical Calorimeter for Measuring Thermal
Conductivity of Multilayer Insulation.- H-2 An Analytical Model for
Determining the Thermal Conductivity of Closed-Cell Foam Insulation.- H-3
Pressure Characteristics of Perlite Insulation in Double-Wall Tanks Under
Repeated Thermal Cycling.- Fluid Dynamics.- I-1 Cooldown Flow Rate Limits
Imposed by Thermal Stresses in Liquid Hydrogen or Nitrogen Pipelines.- I-2
Cooldown Transients in Cryogenic Transfer Lines.- I-3 A Time-Delay Analog for
Thermal-Acoustic Oscillations.- I-4 Automatic Control of Flow Oscillations in
Cryogenic Fluid Heat Exchangers.- I-5 Pressure Drop of Two-Phase Flow in a
Pipeline with Longitudinal Variations in Heat Flux.- I-6 Slush Hydrogen Flow
Characteristics and Solid Fraction Upgrading.- Gas Purification Systems.- J-1
300-scfm Helium Repurifier System.- J-2 High-Purity Products from an Air
Separation Plant.- J-3 Rectisol: A Low-Temperature Scrubbing Process for Gas
Purification.- Refrigeration Systems.- K-1 Applications of Helium to
Very-Low-Temperature Refrigeration.- K-2 Simon Helium Liquefaction Method
Using a Refrigerator and Thermal Valve.- K-3 Operation and Application of a
Three-Stage Closed-Cycle Regenerative Refrigerator in the 6.5°K Region.- K-4
Low-Temperature Regenerator Test Apparatus.- K-5 Joule-Thomson Hydrogen
Refrigerator Target.- K-6 Miniature Vuilleumier-Cycle Refrigerator.-
Cryogenic Systems.- L-1 J-T Liquefaction of Hydrogen-Hydrocarbon Gas
Mixtures.- L-2 Frost Formation on a Cylinder at Cryogenic Temperatures.- L-3
An Experimental Study of the Density of Cryodeposited Surfaces.- L-4
Preparation and Characterization of Slush Hydrogen and Nitrogen Gels.-
Indexes.- Author Index.