Gas-cooled compound porous current leads for cryogenic cables

Design details and experimental test results from several design variations of the gas-cooled, copper current leads used in conjunction with the superconducting dipole magnets for ESCAR (Experimental Superconducting Accelerator Ring) are reported. Thermal acoustic oscillations, which were experience

The temperature distribution and power loss of a gas-cooled current lead have been studied. The physical properties of the gas and the lead are functions of temperature. Results for various gas flows, current densities, and lead lengths are presented.

A new design of gas-cooled current leads is described. In order to optimize them, the differential equations of stationary temperature distribution for variable coefficients were solved by means of an analogue computer. The influence of the variable cross-section A(x) and the zero evaporation rate a

This paper is divided into two distinct sections, In the first section, we investigate the possible existence of multiple steady state solutions for a gas cooled lead. In the second section, we summarize calculated values of the runaway and recovery times for 31 current leads in use throughout the w