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Aerocapture. --- Solar sails. --- Superconducting magnets. --- Propulsion. --- Research and development. --- Ablative materials.
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Microwaves. --- Plasmas (physics) --- Propellants. --- Rocket engines. --- Rocket nozzles. --- Spacecraft propulsion. --- Superconducting magnets.
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Designed for graduate students in mechanical engineering, this textbook discusses the basic concepts of superconducting magnet technology. Important topics covered include field distribution, magnets, force, thermal stability, dissipation, and protection. To help the students excel in the field, each chapter contains tutorial problems, accompanied by solutions, utilizing solenoidal magnets as examples.
Superconducting magnets. --- Magnetic properties of solids --- Physics. --- Condensed matter. --- Solid state physics. --- Crystallography. --- Spectroscopy. --- Microscopy. --- Materials science. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Condensed Matter Physics. --- Characterization and Evaluation of Materials. --- Surfaces (Physics). --- Crystallography and Scattering Methods. --- Superconducting magnets --- Stability.
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Three concepts of high temperature superconductor cables carrying kA currents (RACC, CORC and TSTC) are investigated, optimized and evaluated in the scope of their applicability as conductor in fusion magnets. The magnetic field and temperature dependence of the cables is measured; the thermal expansion and conductivity of structure, insulation and filling materials are investigated. High temperature superconductor winding packs for fusion magnets are calculated and compared with corresponding low temperature superconductor cases.
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HEAT TRANSFER --- THERMODYNAMIC PROPERTIES --- HELIUM --- SUPERCONDUCTORS --- STEADY STATE --- SUPERFLUIDITY --- LIQUID HELIUM --- HEAT FLUX --- STABILITY --- BOILING --- COMPUTATION --- QUENCHING COOLING --- MAGNETIC DISTURBANCES --- SUPERCONDUCTING MAGNETS --- CRYOTRONS --- SUPERCOOLING
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537.6 --- Magnetism --- Superconducting magnets. --- 537.6 Magnetism --- CRYOGENICS --- MAGNETS --- SUPERCONDUCTIVITY --- Monograph --- Magnets. --- Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity --- Magnetic materials --- Magnetics --- Solenoids --- Technologie --- Technology --- Cryogenics --- Magnetic field --- Magnets --- Superconductors
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This book provides a broad introduction to the physics and technology of the High Luminosity Large Hadron Collider (HL-LHC). This new configuration of the LHC is one of the major accelerator projects for the next 20 years and will give new life to the LHC after its first 15-year operation. Not only will it allow more precise measurements of the Higgs boson and of any new particles that might be discovered in the next LHC run, but also extend the mass limit reach for detecting new particles. The HL-LHC is based on the innovative accelerator magnet technologies capable of generating 11–13 Tesla fields, with effectiveness enhanced by use of the new Achromatic Telescopic Squeezing scheme, and other state-of-the-art accelerator technologies, such as superconducting compact RF crab cavities, advanced collimation concepts, and novel power technology based on high temperature superconducting links.The book consists of a series of chapters touching on all issues of technology and design, and each chapter can be read independently. The first few chapters give a summary of the whole project, of the physics motivation and of the accelerator challenges. The subsequent chapters cover the novel technologies, the new configurations of LHC and of its injectors as well as the expected operational implications. Altogether, the book brings the reader to the heart of technologies for the leading edge accelerator and gives insights into next generation hadron colliders.
Large Hadron Collider (France and Switzerland) --- Physics --- Physical Sciences & Mathematics --- Nuclear Physics --- Large Hadron Collider --- Hadron colliders --- Supercolliders --- High Field Superconducting Magnets --- High Energy Colliders --- Superconducting Accelerators --- Advanced Collimators --- High Luminosity Colliders --- LHC Upgrades --- Crab Cavities --- Superconducting Links
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CRYOGENICS --- CALIBRATING --- VACUUM PUMPS --- OPTIMIZATION --- HELIUM --- THERMAL CONDUCTIVITY --- HEAT TRANSFER --- EXPERIMENTAL DATA --- MAGNETIC SEPARATORS --- TURBOGENERATORS --- CRYOSTATS --- GASES --- STREAM FLOW --- EXPANSION COOLING --- STIRLING CYCLE --- REFRIGERATORS --- SPECIFIC HEAT --- SUPERCONDUCTORS --- TEMPERATURE MEASURING INSTRUMENTS --- MATHEMATICAL MODELS --- MAGNETOMETERS --- LIQUEFIERS --- SUPERCONDUCTING MAGNETS --- MAGNET COILS --- SUPERCOOLING
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Second-Generation High-Temperature Superconducting Coils and Their Applications for Energy Storage addresses the practical electric power applications of high-temperature superconductors. It validates the concept of a prototype energy storage system using newly available 2G HTS conductors by investigating the process of building a complete system from the initial design to the final experiment. It begins with a clear introduction of the related background and then presents a comprehensive design of a superconducting energy storage system that can store maximum energy using a limited length of superconductors. The author has created a modeling environment for analysis of the system and also presents experimental results that are highly consistent with his theoretical calculations.
Engineering. --- High temperature superconductors. --- Magnetic energy storage. --- Thin films. --- Mechanical Engineering --- Engineering & Applied Sciences --- Mechanical Engineering - General --- Materials at high temperatures. --- Superconductors. --- Superconducting magnets. --- Energy storage. --- Superconductivity. --- Storage of energy --- Magnets, Superconducting --- Superconducting high-field magnets --- Superconducting materials --- Superconductive devices --- Renewable energy resources. --- Renewable energy sources. --- Alternate energy sources. --- Green energy industries. --- Renewable and Green Energy. --- Electric conductivity --- Critical currents --- Superfluidity --- Force and energy --- Power (Mechanics) --- Flywheels --- Pulsed power systems --- Electromagnets --- Superconductors --- Electric power --- Energy storage --- Superconducting magnets --- Cryoelectronics --- Electronics --- Solid state electronics --- High temperatures --- Materials --- Strength of materials --- Materials at low temperatures --- Alternate energy sources --- Alternative energy sources --- Energy sources, Renewable --- Sustainable energy sources --- Power resources --- Renewable natural resources --- Agriculture and energy
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