Simulations of Brush Contacts of Homopolar Motor/Generators

Simulations of Brush Contacts of Homopolar Motor/Generators

Time-dependent distributions of electromagnetic force and heating were studied.

A computational- simulation study of distributions of electric current and temperature in brushes and slip rings in two model homopolar- motor/generator configurations was performed in support of the development, by the U.S. Navy, of a superconducting homopolar motor/generator (SCHPMG) machine for ship propulsion. Electrical-contact performance (more specifically, brush/slip-ring contact performance) is a limiting factor in the performance of an SCHPMG machine. The present study and similar studies are needed to gain understanding of brush/slip-ring contact performance in order to enable optimal design of brushes for homopolar machines.

Filesize 1.08 MB
Filetype pdf (Mime Type: application/pdf)
Created On: Dec-01 2007
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