Advances in Cryogenic Engineering
Springer-Verlag New York Inc.
978-1-4684-3113-1 (ISBN)
LNG Technology.- A—1 LNG—U. S. and Foreign Traffic—An Overview.- A—2 Cryogenic Technology and Scaleup Problems of Very Large LNG Plants.- A—3 Heat Transfer Problems in Liquefied Natural Gas Plants.- A—4 Explosive Boiling of Liquefied Hydrocarbon/Water Systems.- Heat Transfer.- B—1 Coiled Tubular Heat Exchangers.- B—2 Effects of Maldistribution on the Performance of Multistream, Multipassage Heat Exchangers.- B—3 Combined Buoyancy and Flow Direction Effects on Saturated Boiling Critical Heat Flux in Liquid Nitrogen.- B—4 Interpretation and Correlation of Deviations from a Hydrodynamic Channel Boiling Theory of Data on Nitrogen and Hydrogen in Forced and Free Flow Boiling.- B—5 Cryogenic Thermal Stratification and Interfacial Phenomena for Heated Tanks during Prolonged Orbital Flight.- B—6 Miniature Uranium Fuel Plates Cooled by Liquid Helium for Irradiation Damage Studies.- B—7 Development Program for a Liquid Methane Heat Pipe.- Insulation Systems.- C—1 Heat Transfer in Microsphere Cryogenic Insulation.- C—2 Analysis of Thermal Diffusivity Evaluation under Transient Conditions for Powder Insulations.- C—3 Lateral Heat Transfer in Cryogenic Multilayer Insulation.- C—4 An Analytical and Experimental Evaluation of Shadow Shields and Their Support Members.- Fluid Mechanics.- D—1 Liquid Flow Rates of Superfluid Helium II during Thermomechanical Pumping through Porous Media.- D—2 Helium Flow through Filters.- D—3 Choked Flow of Fluid Nitrogen with Emphasis on the Thermodynamic Critical Regions.- D—4 Geysering Inhibitor for Vertical Cryogenic Transfer Piping.- Mechanical Properties.- E—1 The Tensile Properties of Aluminum Alloys Formed at Cryogenic Temperatures.- E—2 Mechanical and Physical Properties of Several AdvancedMetal-Matrix Composite Materials.- E—3 Tensile Properties of Polyurethane and Polystyrene Foams from 76 to 300 K.- E—4 Compressive Properties of Polyurethane and Polystyrene Foams from 76 to 300 K.- Thermodynamic Properties.- F—1 Development of a Method for Direct Determination of Dew Point Loci of Methane—Heavier Hydrocarbon Mixtures at Low Temperatures and Elevated Pressures.- F—2 Thermodynamic Properties of Propane: Vapor—Liquid Coexistence Curve.- F—3 Thermodynamic Properties of Propane: PVT Surface and Corresponding Thermodynamic Properties.- F—4 Cryogenic Thermal Properties from the UM Fluids Laboratory.- F—5 An Equation of State for Oxygen and Nitrogen.- F—6 Representation of PVT Data by Means of a Universal State Equation for Simple Pure Fluids.- F—7 Flory-Huggins Entropy — Effect of Liquid Expansion.- Thermal Properties.- G—1 Thermal Conductivity of Nylons and Apiezon Greases.- G—2 Thermal Conductivity Measurements of Liquid and Dense Gaseous Methane.- Instrumentation.- H—1 Cryogenic Instrumentation at and above Liquid Hydrogen Temperature—Present and Future.- H—2 Cryogenics below Liquid Hydrogen Temperature.- H—3 Temperature and Level Control in a Liquid Helium II Cryostat.- H—4 Continuous Liquid Level Measurements with Time-Domain Reflectometry.- H—5 The Cryobridge, an Automatic AC Potentiometer for Resistance Thermometry at Low Power Dissipation.- H—6 The Use of Difference Thermocouples in Cryogenic Systems.- Refrigeration.- I—1 A Combustion Heated, Thermally Actuated, Vuilleumier Refrigerator.- I—2 Selected Vuilleumier Refrigerator Performance Characteristics.- I—3 Refrigeration for the Livermore Superconducting Levitron.- I—4 Spacecraft Compatibility of Cryogenic Refrigerators.- Applied Superconductivity.-J—1 MIT—EEI Superconducting Synchronous Machine.- J—2 A 60-in.-Diameter, Levitated Superconducting Coil Thermally Shielded by Lead.- J—3 Vibration Simulation of a Space Probe Model Superconducting Energy Storage Coil.- J—4 Five-MVA Superconducting Generator Development.- J—5 Conductors for Superconducting Electrical Machines.- J—6 Thermal Conductivity of Braided Superconductor Systems.- J—7 Field and Current Measurements and Calculations in a Superconducting Tape-Wound Magnet.- J—8 Critical Current of a 50 at. % Nb-Ti Alloy As a Function of Temperature and Magnetic Field.- Atomic and Metallic Hydrogen.- K—1 Atomic Hydrogen Stabilization by High Magnetic Fields and Low Temperatures.- K—2 Penultimate Static Pressure Containment Considerations and Possible Applications to Metallic Hydrogen Preparation.- K—3 Prospects for Obtaining Metallic Hydrogen with Spherical Presses.- K—4 High-Density Hydrogen Research.- Cryo-Systems.- L—1 A New Thermal Means for Gas Separation.- L—2 Cryopumped, Condensed Hydrogen Jet Target for the National Accelerator Laboratory Main Accelerator.- L—3 Concentric Pulse Tube Analysis and Design.- L—4 Low-Temperature Nitrogen Ejector Performance.- L—5 Long-Term Cryogenic Space Storage System.- L—6 A Low-Heat-Leak, Temperature-Stabilized Support.- L—7 Helium Conservation Using Solid Nitrogen.- L—8 Clean Energy via Cryogenic Technology.- Indexes.- Author Index.
Reihe/Serie | Advances in Cryogenic Engineering ; 18 |
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Zusatzinfo | 234 Illustrations, black and white; XIII, 533 p. 234 illus. |
Verlagsort | New York, NY |
Sprache | englisch |
Maße | 178 x 254 mm |
Themenwelt | Schulbuch / Wörterbuch |
Geisteswissenschaften | |
Naturwissenschaften ► Physik / Astronomie ► Angewandte Physik | |
Sozialwissenschaften | |
Technik ► Maschinenbau | |
ISBN-10 | 1-4684-3113-7 / 1468431137 |
ISBN-13 | 978-1-4684-3113-1 / 9781468431131 |
Zustand | Neuware |
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