Realization of Bullard's disc dynamo

We report experimental results from three successful runs of a Bullard-type homopolar disc dynamo. The set-up consisted of a copper disc with a radius of 30 cm and thickness of 3 cm which was placed co-axially beneath a flat, multi-arm spiral coil of the same size and connected to it electrically at...

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Bibliographic Details
Published in:arXiv.org 2023-03
Main Authors: Avalos-Zúñiga, Raúl Alejandro, Priede, Jānis
Format: Article
Language:English
Subjects:
Coils
Dynamo theory
Electric contacts
Electric motors
Hall probes
Liquid metals
Magnetic fields
Stalling
Torque
Voltage drop
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Summary:We report experimental results from three successful runs of a Bullard-type homopolar disc dynamo. The set-up consisted of a copper disc with a radius of 30 cm and thickness of 3 cm which was placed co-axially beneath a flat, multi-arm spiral coil of the same size and connected to it electrically at the centre and along the circumference by sliding liquid-metal contacts. The magnetic field was measured using Hall probes which were fixed on the top face of the coil. We measured also the radial voltage drop across the coil. When the disc rotation rate reached \(\Omega\approx 7\) Hz, the magnetic field increased steeply approaching \(B_{0}\approx 40\) mT in the central part of the coil. This field was more than two orders of magnitude stronger than the background magnetic field. In the first two runs, the electromagnetic torque braking the disc in the dynamo regime exceeded the breakdown torque of the electric motor driving the disc. As a result, the motor stalled and the dynamo was interrupted. Stalling did not occur in the third run when the driving frequency was set higher and increased faster. We also propose an extended disc dynamo model which qualitatively reproduces the experimental results.
ISSN:2331-8422
DOI:10.48550/arxiv.2211.03377