Tokamak Energy launches TE Magnetics to open new fields of performance with transformative HTS technology

Tokamak Energy, a leading global fusion energy company, has launched a new business division called TE Magnetics to focus on the industrial deployment of transformative high temperature superconducting (HTS) magnet technology.

HTS magnets enable powerful and efficient magnetic fields for a wide range of applications that will drive scientific discoveries, improve medical diagnostics, and contribute to advancements in the defence industry.

The new generation technology can also enable the efficient operation of fusion energy devices by confining the extremely hot plasma of fuels. Fusion, the power of the stars, will play a vital role in a complete transition to a clean and secure energy future and TE Magnetics aims to become the market-leading designer and supplier of HTS magnets to the fusion industry.

With over a decade of advanced HTS magnet research, generating more than 200 patents, TE Magnetics is introducing its ultra-high field, robust and cost-effective technology stack at this week’s Applied Superconductivity Conference (ASC) in Salt Lake City, Utah.

Warrick Matthews, Tokamak Energy CEO, said: “TE Magnetics will commercialise our transformative fusion magnet technology and take it into new markets. Launching this new business division allows us to focus on our core mission of delivering clean, secure and affordable fusion energy, while supporting our strategy for rapid growth across complementary markets.”

Dr Liam Brennan, TE Magnetics Director, added: “The era of high temperature superconductors is here. TE Magnetics is born from Tokamak Energy’s world-class fusion mission and is centred on opening new fields of performance in applications that will change the world in which we live today. We’re taking our knowledge, skills and talent forward to disrupt existing and create new markets for magnet technologies over the next decade, including renewable energy, science, and land, water, air and space propulsion.”

Compact HTS magnets generate far stronger fields and operate at higher temperatures than conventional low temperature superconductors (LTS). This makes HTS much more energy efficient and easier to manage, removing the requirement for complex liquid helium infrastructure. By enabling more energy-efficient and robust, ‘quench-safe’ technologies, HTS magnets can contribute to reducing energy consumption and decarbonisation.

As well as applications for magnetic confinement fusion, HTS can also enhance the efficiency and power density of renewable energy devices, including wind turbines, and has the potential to provide grid stabilisation and load levelling through energy storage. Potential propulsion applications include magneto hydrodynamic drive (MHD) and magnetic levitation, while ultra-high field (UHF) HTS magnet technology will enable high performance in areas such as physics research and materials analysis.

TE Magnetics offers a full suite of HTS solutions, from modelling and prototyping through to fully integrated magnet system development and delivery, including large scale manufacturing.

Magnets are wound in parallel from HTS tapes, multi-layered conductors typically 12mm wide and less than 0.1 mm thick made mostly of strong and conductive metals, but with a crucial thin internal coating of rare earth barium copper oxide (REBCO) superconducting material. REBCO magnets use 99% less rare earth material than permanent magnets. For more information visit www.temagnetics.com

 

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