Quench, normal zone propagation velocity, and the development of an active protection scheme for a conduction cooled, react-and-wind, MgB₂ MRI coil segment

Abstract: The development of coils that can survive a quench is crucial for demonstrating the viability of MgB2-based main magnet coils used in MRI systems. Here we have studied the performance and quench properties of a large (outer diameter: 901 mm; winding pack: 44 mm thick × 50.6 mm high) conduction-cooled, react-and-wind, MgB2 superconducting coil. Minimum quench energy (MQE) values were measured at several coil operating currents (Iop), and distinguished from the minimum energy needed to generate a normal zone (MG… Show more

“…This phenomenon can occur due to various factors, such as local hot spots, mechanical disturbances, or external magnetic field perturbations. Hence, studying the quench propagation properties is essential for developing effective quench protection strategies to ensure the safe and reliable operation of superconducting magnets in various applications [10][11][12].…”

Investigation of normal zone propagation velocity in AgSn/Ag/Ba122 superconducting tapes using a conduction cooling test system

“…This phenomenon can occur due to various factors, such as local hot spots, mechanical disturbances, or external magnetic field perturbations. Hence, studying the quench propagation properties is essential for developing effective quench protection strategies to ensure the safe and reliable operation of superconducting magnets in various applications [10][11][12].…”

Investigation of normal zone propagation velocity in AgSn/Ag/Ba122 superconducting tapes using a conduction cooling test system

Thermally conductive composites with hydroxylated boron nitrides for the efficient thermal management of superconducting coils

Finite element analysis of the temperature distribution within a Conduction-Cooled, MgB2-based MRI superconducting coil segment