Title :
Low bending rippled structure design and frictional energy disturbance analysis for superconductive magnet energy storage
Author_Institution :
Appl. Superconductivity Center, Wisconsin Univ., Madison, WI, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
Friction between the structure and conductor is the largest potential thermal disturbance to superconductive magnetic energy storage (SMES) conductors. Direct calculation of the disturbance is difficult because input assumptions on friction coefficients and slippage distances are not reliable for a stick-slip occurrence. A general approach is presented in which the disturbance ED is calculated as the difference in strain energy before and after slippage, which is independent of the friction coefficient and slippage details. The disturbance is found for the low bending ripple, circular ripple, and nonripple structures. The low bending ripple structure has a very small disturbance, approximately 2% of that for a nonripple structure
Keywords :
friction; superconducting magnet energy storage; SMES; circular ripple; friction coefficients; frictional energy disturbance analysis; low bending ripple; nonripple structures; slippage distances; stick-slip occurrence; strain energy; superconductive magnet energy storage; thermal disturbance; Conductors; Energy storage; Friction; Magnetic analysis; Magnetic field induced strain; Samarium; Shape; Stress; Superconducting magnetic energy storage; Superconductivity;
Journal_Title :
Magnetics, IEEE Transactions on
