Seoul National University (SNU) signs collaboration agreement to develop High Temperature Superconductor (HTS) cables needed to develop the UK’s prototype fusion energy plant, STEP (Spherical Tokamak for Energy Production).
Seoul National University today announces a collaboration to accelerate the development of high-temperature superconducting magnets for STEP, the UK’s pioneering fusion programme to deliver a prototype fusion energy plant.
The aim of the collaboration between SNU’s Applied Superconductivity Centre and the STEP programme team, is to elevate the technology readiness level of HTS cable needed to create stronger magnetic fields that will enable STEP’s superconducting magnets to confine its fusion plasma.
The STEP programme is led by UK Industrial Fusion Solutions – a wholly owned subsidiary of UK Atomic Energy Authority Group – and aims to pave the wave for the commercial viability of fusion by demonstrating net energy, fuel self-sufficiency and a viable route to plant maintenance.
Ezzat Nasr, STEP Confinement Product Lead, UK Industrial Fusion Solutions, said: “The goal is to use these cables to fabricate scaled-down coils, with the aim of developing skills and accelerating innovative technologies to deliver magnet systems for future fusion energy plants. Our work with SNU will advance HTS magnet technology by improving the repeatability and scalability of longer-length cables.”
The collaboration with SNU builds on preliminary small-scale samples tested at cryogenic temperatures (77 K). The next phase will focus on prototype HTS cables capable of carrying 100 kA, which are planned to be tested at 20-40 K in a high background field.
Professor Seungyong Hahn from the Department of Electrical and Computer Engineering, Seoul National University’s College of Engineering, said: “With past three years of experience developing high-temperature superconductor cables and magnets through the PRISM project launched in Korea, Seoul National University was able to contribute to this collaboration. Partnering with the UK’s STEP programme on this endeavour is a privilege, and we are optimistic about the significant advancements this partnership will bring to fusion magnet technology.”
This joint research is supported by the Ministry of Science and ICT’s Korea Research Foundation and is based on the research outcomes of the PRISM project (project leader: Sangjin Lee, a visiting professor at the Department of Electrical and Computer Engineering, SNU), led by the Applied Superconductivity Center at Seoul National University. The STEP project includes participation from PowerNix Co., Ltd. and Standard Magnet Inc., both members of the joint research team.
Fusion can be thought of as the opposite of fission – combining lighter atoms rather than splitting heavier ones. It is based on the same processes that power the Sun and stars and has the potential to provide safe, sustainable and low-carbon energy for generations to come.
STEP is the UK’s flagship fusion programme that will demonstrate both a technical and industrial pathway towards the commercial realisation of fusion. For further information, visit: step.ukaea.uk or follow social channels @STEPtoFusion.
