Comparison and performance analysis of HTS current leads

A theoretical optimization is performed for the conduction-cooling method of high Tc superconductor (HTS) current leads, which can be applied to the superconducting systems cooled directly by cryogenic refrigerators without liquid helium. The current lead is a series combination of a normal metal co

The profile of the pressure drop of cooling gas was measured in operational tests of 7 and 10 kA current leads. The current leads have spiral-shaped fins which permit both high heat exchange efficiency and reliability against thermal runaway. A general design chart was employed to determine the geom

Current leads of HTS transformer are a part that leads to heat leakage. Its design and fabrication influence greatly the loss of nitrogen during operation. It is important to calculate and identify the heat leakage of current leads. According to the requirements of the 300 kVA HTS transformer used f

An optimization analysis was performed to determine the intercept temperature that minimizes the net room-temperature refrigeration requirements for a binary-type HTS current lead. Two types of HTS material systems were investigated: (1) Bi 2 Sr 2 Ca 1 Cu 2 O x (2212) melt-cast-processed tube and (2