In February of this year, CSA was invited to the National High Magnetic Field Laboratory (CSA CSM) at Florida State University to tour its facilities and meet key personnel at the forefront of cryogenic and superconducting technology at the lab. On our tour we were taken behind the scenes to...

Electric power systems—whether for electric utilities or on ships, airplanes or automobiles—require electronic power circuitry to change voltage levels and to convert between DC and AC, as well as for controlling power delivery. The use of superconductivity and cryogenics for motors, generators, energy storage and power distribution leads naturally to...

Cryogenic gas circulators (CryoFans) are not very well known in the industry as a possible solution for cryogenic process design. In case a complex system needs to be cooled and a direct connection of a cryocooler is impossible, difficult or causes other issues, such as vibration, a gas circulator might...

This feature explores developments in superconducting energy applications from contributors Ricerca sul Sistema Energetico SpA (RSE), Guina Research & Development, Nexans Deutschland GmbH, Air Liquide Advanced Technology and SuperPower Inc.

Manufactured by suppliers in six ITER Domestic Agencies—China, Europe, Japan, Korea, Russia and the USA—production of niobium-tin (Nb3Sn) superconducting strand for ITER's toroidal field coils began in 2009 and has now topped 400 tons.

Reaction Engines Ltd., a UK based company, has successfully completed another series of tests of the key component for a new engine, SABRE, that will enable aircraft to fly anywhere on Earth in under 4 hours, or directly into space and back to deliver satellites and other cargo.