The principal scientists of Novum Industria have extensive capabilities, knowledge, and experience, in all aspects of large scale superconducting magnet design and development (both with Low Temperature Superconductors (LTS) and High Temperature Superconductors (HTS)) applicable to magnetic levitation and propulsion, energy storage and power delivery systems, design of permanent magnet systems, in conventional application of very large pulse power and power conditioning systems, in cryogenic system design, and in small and large scale R&D related to these technologies. We maintain a complete environment for the development of advanced large-scale electromagnetic devices for science and applications. This includes the use and development of advanced engineering methods and tools, simulations, analyses including coupled 'multi-physics' analyses, critical testing and evaluation facilities, and R&D Project Management.
This work is performed by an interdisciplinary team of Ph.D. engineers and scientists with backgrounds in mechanical, electrical, and nuclear engineering, in materials science, and in engineering physics.
Application areas include: magnet systems; conventional and superconducting magnets for fusion and other advanced power systems; superconducting cable-in-conduit conductor analysis and development; high strength, long fatigue life materials development for electromechanical devices; advanced superconducting materials; stability, quench and protection systems for superconducting magnets; high gradient magnetic separation (HGMS) systems for water treatment and biological materials separation, and for beneficiation of ores and extraction of Rare Earth Elements (REE); high field magnet design and development; pulsed energy storage in conventional, nitrogen-cooled; magnetic levitation for high-speed ground transportation and space applications, and for lightweight electric motors and generators using High Temperature Superconductors.
Specific experience in several of these areas is given in the Technologies section.
This work is performed by an interdisciplinary team of Ph.D. engineers and scientists with backgrounds in mechanical, electrical, and nuclear engineering, in materials science, and in engineering physics.
Application areas include: magnet systems; conventional and superconducting magnets for fusion and other advanced power systems; superconducting cable-in-conduit conductor analysis and development; high strength, long fatigue life materials development for electromechanical devices; advanced superconducting materials; stability, quench and protection systems for superconducting magnets; high gradient magnetic separation (HGMS) systems for water treatment and biological materials separation, and for beneficiation of ores and extraction of Rare Earth Elements (REE); high field magnet design and development; pulsed energy storage in conventional, nitrogen-cooled; magnetic levitation for high-speed ground transportation and space applications, and for lightweight electric motors and generators using High Temperature Superconductors.
Specific experience in several of these areas is given in the Technologies section.