توضیحاتی در مورد کتاب Advances in Cryogenic Engineering
نام کتاب : Advances in Cryogenic Engineering
ویرایش : 1
عنوان ترجمه شده به فارسی : پیشرفت در مهندسی برودتی
سری : Advances in Cryogenic Engineering 35 A
نویسندگان : P. G. Marston, A. M. Dawson, D. B. Montgomery, J. E. C. Williams (auth.), K. D. Timmerhaus, H. A. Snyder (eds.)
ناشر : Springer US
سال نشر : 1980
تعداد صفحات : 868
ISBN (شابک) : 9781461398585 , 9781461398561
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 32 مگابایت
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
توضیحاتی در مورد کتاب :
کنفرانس مهندسی برودتی، سالگرد نقره ای خود را در کنفرانس 1979 که در مدیسون، ویسکانسین برگزار شد، جشن گرفت. برای بسیاری، این فرصتی برای یادآوری اولین کنفرانس مهندسی برودتی که در دفتر ملی استانداردها در بولدر، کلرادو تشکیل شد و همچنین در مورد بسیاری از کنفرانسها و پیشرفتهایی که در این کنفرانسها گزارش شده بود، فراهم کرد. درک این موضوع دشوار است که اولین کنفرانس مهندسی برودتی قبل از ظهور عایق چند لایه، عصر فضا، عملیات LNG در مقیاس بزرگ و کاربردهای ابررسانایی برگزار شد. تکامل این فعالیت ها در مجلدات گذشته پیشرفت های مهندسی برودتی به دقت ثبت شده است. · بار دیگر، کنفرانس مهندسی برودتی خوشحال است که کنفرانس بین المللی مواد برودتی این نشست را در دانشگاه ویسکانسین برگزار کرده است. همکاری بین این دو کنفرانس با ارائه یک مهندس برودتی با قرار گرفتن در معرض عمیق با خواص مواد، انتخاب و استفاده برای تکمیل قرار گرفتن در معرض برنامههای کاربردی جدید و مفاهیم طراحی، به طور متقابل سودمند است. مقالات ارائه شده در این کنفرانس مشترک به عنوان بخشی از کنفرانس بین المللی مواد برودتی به عنوان جلد 26 از Advances in Cryogenic Engineering منتشر خواهد شد.
فهرست مطالب :
Front Matter....Pages i-xvi
Superconducting MHD Magnet Engineering Program....Pages 1-11
Impact of High-Current Operation on the Cost of Superconducting Magnet Systems for Large-Scale MHD Applications....Pages 12-18
Final Design of a Superconducting MHD Magnet for the Coal-Fired Flow Facility at the University of Tennessee Space Institute....Pages 19-29
Cryogenic Aspects of the UTSI-CFFF Superconducting Dipole Magnet for MHD Research....Pages 30-38
Safety Analysis of the UTSI-CFFF Superconducting Magnet....Pages 39-48
Engineering Aspects of Cryogenic Laser-Fusion Targets....Pages 49-60
Energy Transfer in a System of Superconductive Magnets....Pages 61-68
Thermal Cycle Tests of a Modeled Superconducting Transmission Line....Pages 69-80
Design of a 400-kJ Pulsed Energy Storage Coil....Pages 81-89
Operating Characteristics of a 1.5-MJ Pulsed Superconducting Coil....Pages 90-97
3-MJ Magnet for Superconductive Energy Storage....Pages 98-104
Conceptual Design of a 20-MJ Superconducting Forced-Cooled Ohmic-Heating Coil....Pages 105-113
Shape Optimization Study for a Three-Tunnel Superconductive Energy Storage Magnet....Pages 114-119
20-kA Power Supply for Large Superconductive Coils....Pages 120-126
Superconducting Generator Design for Airborne Applications....Pages 127-136
Superconducting Field Winding for a 10-MVA Generator....Pages 137-144
Conductive Armature Shielding Design Concepts for Slow-Speed Superconducting Generators in the 40- To 400-MVA Range....Pages 145-155
Optimization of Superconducting Cryoturbogenerator Field-Winding Parameters....Pages 156-162
Superconducting Compensating Solenoids for the Cello Detector Experiment at Petra....Pages 163-174
Construction and Test of the Cello Thin-Wall Solenoid....Pages 175-184
Quenches in the Superconducting Magnet Cello....Pages 185-193
Construction and Testing of the Two-Meter-Diameter TPC Thin Superconducting Solenoid....Pages 194-199
Superconducting Magnet System for the Spirit Cosmic Ray Space Telescope....Pages 200-206
A Maintainable Superconducting Magnet System for Tokamak Fusion Reactors....Pages 207-221
Prototype Low-Current Superconducting Quadrupole Magnet for Fermilab’s High-Intensity Laboratory....Pages 222-231
Superconducting Magnets of the Biomedical Facility at Sin....Pages 232-238
A Novel Thermometer Sensor for the mK Region Using the Proximity Effect....Pages 239-243
A Superconducting RF Notch Filter....Pages 244-250
Experimental Evaluation of a 1-Meter-Scale D-Shaped Test Coil Fabricated from a 23-Meter Length of Internally Cooled, Cabled Superconductor....Pages 251-260
Performance of Gas-Filled Thermal Switches....Pages 261-265
Transient Cooling of a Faultworthy Superconducting Electric Generator....Pages 266-274
Experimental Simulation of a Cryogenic System for a Large Superconducting Rotor....Pages 275-284
Rotor Cooling System for a 10-MVA Superconducting Generator....Pages 285-293
Safety Leads....Pages 294-299
Magnet Leads for The First-Cell....Pages 300-307
Thermal Control for the MFTF Magnet....Pages 308-316
Forced-Circulation Cooling System for the Argonne Superconducting Heavy-Ion Linac....Pages 317-325
Energy Doubler Satellite Refrigerator Magnet Cooling System....Pages 326-334
Cryogenic Support System for Airborne Superconducting Generators....Pages 335-341
Economics of Cryogenic Systems for Superconducting Magnets....Pages 342-349
Minimization of Refrigeration Power for Large Cryogenic Systems....Pages 350-357
Two-Dimensional Heat Transfer to Superfluid Helium....Pages 358-362
Heat Transfer to Helium-II in Cylindrical Geometries....Pages 363-371
Maximum and Minimum Heat Flux and Temperature Fluctuation in Film-Boiling States in Superfluid Helium....Pages 372-377
Transient Heat Transfer in Boiling Helium-I and Subcooled Helium-II....Pages 378-384
Heat Transfer Measurement with a Small Superconducting Coil Subjected to Transient and Quasistatic Heating at Temperatures between 1.8 and 4.2 K....Pages 385-392
Heat Transfer of Helium in a Pipe with Suction....Pages 393-397
Heat Transfer and Helium Replenishment in Cabled Conductor Cooling Channels....Pages 398-405
Measurements of Heat Transfer and Helium Replenishment in Long Narrow Channels....Pages 406-411
Vapor Locking and Heat Transfer under Transient and Steady-State Conditions....Pages 412-419
Forced Two-Phase Helium Cooling of Large Superconducting Magnets....Pages 420-430
Contact Heat Transfer in Solid Cryogens....Pages 431-437
Digital Computer Simulation of Voidage in a Regenerator....Pages 438-445
Simulation of Cooldown Underneath Large Cryogenic Storage Tanks....Pages 446-454
Transient Pool Boiling of Liquid Helium Using a Temperature-Controlled Heater Surface....Pages 455-466
Heat Transfer During Subcooled Hydrogen Boiling....Pages 467-475
Observation of Bubble Formation Mechanism of Liquid Nitrogen Subjected to Transient Heating....Pages 476-482
Natural Convection Heat Leak in Supercritical Hydrogen Tanks....Pages 483-488
Techniques for Reducing Radiation Heat Transfer between 77 and 4.2 K....Pages 489-499
Experience with an Orifice Flow Meter Installed in a Helium Refrigerator....Pages 500-505
Some Observations of a Free Jet Phenomenon in a 90° Sharp-Edge Inlet Geometry....Pages 506-520
Experimental Study of Flow Instabilities in Forced Helium Cooling Channels....Pages 521-527
Acoustic Oscillation Phenomena in Low-Velocity Steady Flow with Heating....Pages 528-540
Control of Pressurized Superfluid Helium-II: Application to Loss Analysis....Pages 541-550
Thermodynamic Optimization of Helium Liquefaction Cycles....Pages 551-562
A 50-Liters/Hr Helium Liquefier for a Superconducting Magnetic Energy Storage System....Pages 563-573
A Closed-Cycle Thermally Activated Regenerative Cryogenerator....Pages 574-584
A Study of Refrigeration for Liquid-Nitrogen-Cooled Power Transmission Cables....Pages 585-596
The Effect of Temperature on Impurity Adsorption from Hydrogen on Activated Carbon and Silica Gel....Pages 597-608
Effect of Nitrogen Presence on Solid Solubility of Normal Paraffins in Liquid Ethane....Pages 609-615
Solubility of Solid tert-Butyl Mercaptan in Liquid Methane and an LNG Mixture....Pages 616-619
Prediction of CO 2 Solubility in Light Hydrocarbon Mixtures at Low Temperatures....Pages 620-628
Melting Point Data for Freeze Protection in Natural Gas Liquids (NGL) Plants using Methanol Dehydration....Pages 629-639
Measurement of Isochoric P—V—T Behavior of a Nominal 95-Mol.%-Methane—5-Mol.%-Propane Mixture from Near-Ambient to Cryogenic Temperatures....Pages 640-653
Phase Behavior of Three Hydrogen-Containing Ternary Systems....Pages 654-661
Vapor Pressure and Heats of Vaporization and Sublimation of Liquids and Solids of Interest in Cryogenics below 1-atm Pressure....Pages 662-670
Simple and Generalized Equation of State for Vapor-Liquid Equilibrium Calculations....Pages 671-681
Reduced Volumetric Expansion and Isothermal Compressibility Factor Plots....Pages 682-692
The Construction and Use of Exergy Diagrams....Pages 693-697
Densities and Dielectric Constants of LPG Components and Mixtures at Cryogenic Storage Conditions....Pages 698-708
Dielectric Properties of Liquid Hydrogen....Pages 709-714
World Market for LNG Trade—Present and Future....Pages 715-729
LNG Project Development: Shipping and Terminal Considerations....Pages 730-750
Marine Transportation of LNG at Intermediate Temperature....Pages 751-756
Explosion Hazards of LNG and LPG Carriers during Transport....Pages 757-762
Purification and Cryogenic Separation of SNG Produced from Coal....Pages 763-774
A Portable 3 He Cryostat for Studies in Astrophysics....Pages 775-782
Mechanism of an Active Phase Separator for Space Applications....Pages 783-790
Progress on the Development of a 3- to 5-Year Lifetime Stirling Cycle Refrigerator for Space....Pages 791-800
Superfluid Helium Experiment for Spacelab 2....Pages 801-809
Helium: Its Past, Present, and Future....Pages 810-821
Liquid Hydrogen as an Automotive Fuel....Pages 822-830
Liquid Nitrogen as an Energy Source for an Automotive Vehicle....Pages 831-837
Back Matter....Pages 839-852
توضیحاتی در مورد کتاب به زبان اصلی :
The Cryogenic Engineering Conference celebrated its Silver Anniversary at the 1979 Conference held at Madison, Wisconsin. For many it provided an opportunity to reminisce about the first Cryogenic Engineering Conference convened at the National Bureau of Standards in Boulder, Colorado and also about the many following conferences and advances that had been reported at these conferences. It is difficult to realize that the first Cryogenic Engineering Conference was held before the advent of multilayer insulation, the space age, large-scale LNG Operations and superconductivity applications. The evolution of these activities has been carefully recorded in past volumes of the Advances in Cryogenic Engineering. · Once again, the Cryogenic Engineering Conference is happy to have had the International Cryogenic Materials Conference cohost this meeting at the University of Wisconsin. Collaboration between these two conferences has proven to be mutually beneficial by providing the cryogenic engineer with an in-depth exposure to materials properties, selection, and utilization to complement the exposure to new applications and design concepts. The papers presented at this joint conference as part of the International Cryogenic Materials Conference will be published as Volume 26 of the Advances in Cryogenic Engineering.