1. Electromagnetic flow excitation in a liquid metal volume using a Helmholtz-like coil setup
- Author
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Jüstel, P., Röhrborn, S., Schindler, F., Galindo, V., and Stefani, F.
- Subjects
Physics::Fluid Dynamics ,resonance ,liquid metal ,Rayleigh-Bénard convection ,Electromagnetic forcing - Abstract
We present first results of our experiment involving electromagnetic forcing of a liquid metal volume. The experiment consist of a cylinder filled with eutectic GaInSn alloy and two magnetic coils placed on opposite sides of the cylinder. An alternating current in the coils excites Lorentz forces in the fluid, generating a flow field. Using ultrasound doppler velocimetry (UDV), we mapped this flow field. Maximum velocities of a few centimetres per second were reached. Numerical studies of the problem were also conducted and show good agreement. As a next step, the experimental setup shall be used to periodically disturb a Rayleigh-Bénard convection. The Rayleigh-Bénard flow structure occurs, when a layer of fluid is heated from below. The resulting flow is a convection roll about a horizontal axis. Point of interest is a possible resonance effect between the introduced forces and this flow structure.
- Published
- 2019