E-Book, Englisch, Band 5, 584 Seiten, eBook
Proceedings of the 1959 Cryogenic Engineering Conference University of California, Berkeley, California September 2–4, 1959
E-Book, Englisch, Band 5, 584 Seiten, eBook
Reihe: Advances in Cryogenic Engineering
ISBN: 978-1-4757-0537-9
Verlag: Springer US
Format: PDF
Kopierschutz: 1 - PDF Watermark
Zielgruppe
Research
Autoren/Hrsg.
Weitere Infos & Material
Applications and Techniques.- A-0 Cryogenic Engineering Advances in the Space Age.- A-1 Air Core Cryogenic Magnet Coils for Fusion Research and High-Energy Nuclear Physics Applications.- A-2 Design of Large Cryogenic Magnet Coils.- A-3 Cryogenic Experience with the 72-Inch Bubble Chamber.- A-4 Large-Scale Production, Handling, and Storage of Liquid Hydrogen.- A-5 A Study of the Hazards in the Storage and Handling of Liquid Hydrogen.- A-6 Test Equipment and Procedures Used in the Development of Liquid Oxygen-Hydrogen Rocket Engines.- A-7 Practical Storage and Distribution of Liquid Hydrogen and Helium.- Missile Technology.- B-1 Handling Liquid Fluorine in Rocket Applications.- B-2 Handling Liquid Hydrogen on a Pilot-Plant Scale.- B-3 Cryogenic Tankage for Space Flight Applications.- B-4 Transfer of Liquid Hydrogen through Uninsulated Lines.- B-5 Flexibility Considerations for the Design of Cryogenic Transfer Lines.- B-6 Facilities for Testing Rocket Engine Components Using Cryogenic Fluids as Propellants.- Insulation.- C-1 Externally Bonded and Sealed Insulation for Liquid-Hydrogen-Fueled Rocket Tanks.- C-2 Flat Panel Vacuum Thermal Insulation and the Super-Dewar Flask.- C-3 Metal Powder Additives in Evacuated-Powder Insulation.- C-4 Effect of Condensation on Conventionally Insulated Cryogenic Tanks.- C-5 A Study of Condensing-Vacuum Insulation.- C-6 Low-Temperature Insulating Systems.- Superinsulation.- D-1 Development of High-Efficiency Insulation.- D-2 Multiple-Layer Insulation.- D-3 Engineering Aspects of Heat Transfer in Multilayer Reflective Insulation and Performance of NRC Insulation.- D-4 Characteristics and Applications of Some Superinsulations.- D-5 Cryogenic Insulation Development.- Heat Transfer.- E-1 Heat Transfer to Helium II for Big Differences of Temperature between Heated Wall and Superfluid Helium Bath.- E-2 Transient Phenomena Associated with the Pressurization of Liquid Nitrogen Boiling at Constant Heat Flux.- E-3 Recent Developments of the Reversing Exchanger.- E-4 Design, Construction, and Testing of a Helium-to-Hydrogen Heat Exchanger.- E-5 Boiling Heat Transfer to Liquid Hydrogen from Flat Surfaces.- E-6 Nucleate- and Film-Boiling Studies with Liquid Hydrogen.- Design and Application.- F-1 On the Evacuation of Plastic Foams to Reduce Their Thermal Conductivity.- F-2 The Venturi Tube as a Liquefied-Gas Flow Measuring Device.- F-3 High-Pressure Liquid-Hydrogen and -Helium Pumps.- F-4 A Volumetric Flowmeter for Liquid Oxygen.- F-5 Results of Flowmeter Calibration in Liquid Hydrogen.- F-6 Crew Compartment Environmental Control Utilizing Cryogenic Fluids.- Liquefaction and Refrigeration.- G-1 A Closed Infrared Detector Cooling System.- G-2 Miniature Joule-Thomson Refrigeration Systems.- G-3 Continuous Refrigeration between 4.2 and 1°K.- G-4 The Liquefaction of Natural Gas.- G-5 Design, Construction, and Performance of a Laboratory-Size Helium Liquefier.- G-6 A New Low-Temperature Gas Expansion Cycle: Part I.- G-6 A New Low-Temperature Gas Expansion Cycle: Part II.- Mechanical Properties.- H-1 The Strength of Ten Structural Adhesives at Temperatures Down to -424° F.- H-2 The Behavior of High-Magnesium-Content Aluminum Alloys at Room and Liquid-Nitrogen Temperatures.- H-3 Some Mechanical Properties of Magnesium Alloys at Low Temperatures.- H-4 Mechanical Properties of High-Strength 301 Stainless Steel Sheet at 70, -320, and -423° F in the Base Metal and Welded Joint Configurations.- H-5 The Low-Temperature Mechanical Properties of Some Selected Austenitic Manganese Steels.- H-6 The Tensile and Impact Properties ofPlate and Welds of Aluminum Alloy 5083-H113 between 75 and -320°F.- Fluid Phenomena.- J-1 Single-Phase Flow Tests with Liquid Hydrogen.- J-2 Gas-Pressurized Transfer of Liquid Hydrogen.- J-3 A Survey of Stratification in a Cryogenic Liquid.- J-4 Transient Phenomena Associated with the Pressurized Discharge of a Cryogenic Liquid from a Closed Vessel.- J-5 Pressure-Temperature Histories of Liquid Hydrogen under Pressurization and Venting Conditions.- J-6 An Experimental Study Concerning the Pressurization and Stratification of Liquid Hydrogen.- J-7 Temperature Distribution in Liquid and Vapor Phases of Helium in Cylindrical Dewars.- J-8 Measuring Vapor-Liquid Ratios during Flow by a Capacitance Method.- Processes and Data.- K-1 A Kinetics Study of Ortho-Para Hydrogen Conversion.- K-2 Refrigeration Below -100° C.- K-3 Effective Density of Boiling Liquid Oxygen.- K-4 Maximum-Rate Theory of Impact Sensitivity.- K-5 Composition and Analysis of Commercial Liquid Oxygen.- K-6 Experimental Large-Scale Equipment for Low-Temperature Distillation Tray Studies.- K-7 A Compilation and Correlation of the P-V-T Data of Normal Hydrogen from Saturated Liquid to 80° K.- K-8 The Cryogenic Data Center.- Additional Papers.- L-1 An Improved dc Power Regulator.- L-2 Vacuum Gaskets for Use at 20° K.- Author Index.
