posted on 2024-11-16, 03:57authored byDipakkumar Patel, Md Shahriar Hossain, Wenbin Qiu, Hyunseock Jie, Yusuke Yamauchi, Minoru Maeda, Michael Tomsic, Seyong Choi, Jung Ho KimJung Ho Kim
An efficient cooling system and the superconducting magnet are essential components of magnetic resonance imaging (MRI) technology. Herein, we report a solid nitrogen (SN2) cooling system as a valuable cryogenic feature, which is targeted for easy usability and stable operation under unreliable power source conditions, in conjunction with a magnesium diboride (MgB 2) superconducting magnet. The rationally designed MgB 2/SN2 cooling system was first considered by conducting a finite element analysis simulation, and then a demonstrator coil was empirically tested under the same conditions. In the SN2 cooling system design, a wide temperature distribution on the SN2 chamber was observed due to the low thermal conductivity of the stainless steel components. To overcome this temperature distribution, a copper flange was introduced to enhance the temperature uniformity of the SN2 chamber. In the coil testing, an operating current as high as 200 A was applied at 28 K (below the critical current) without any operating or thermal issues. This work was performed to further the development of SN2 cooled MgB 2 superconducting coils for MRI applications.
Funding
Rational design of a new generation magnesium diboride superconducting rotor coil suitable for offshore low-cost wind turbine generators
Patel, D., Hossain, M. Al., Qiu, W., Jie, H., Yamauchi, Y., Maeda, M., Tomsic, M., Choi, S. & Kim, J. (2017). Solid cryogen: a cooling system for future MgB2 MRI magnet. Scientific Reports, 7 43444-1-43444-8.