C. Kasprzyk scite author profile

First results of a new spherical Couette experiment are presented. The liquid metal flow in a spherical shell is exposed to a homogeneous axial magnetic field. For a Reynolds number Re = 1000, we study the effect of increasing Hartmann number Ha. The resulting flow structures are inspected by ultrasound Doppler velocimetry. With a weak applied magnetic field, we observe an equatorially anti-symmetric jet instability with azimuthal wave number m = 3. As the magnetic field strength increases, this instability vanishes. When the field is increased further, an equatorially symmetric return flow instability arises. Our observations are shown to be in good agreement with linear stability analysis and non-linear flow simulations.

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Magnetohydrodynamic effects in liquid metal batteries

Stefani

Galindo

Kasprzyk

et al. 2016

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. Liquid metal batteries (LMBs) consist of two liquid metal electrodes and a molten salt ionic conductor sandwiched between them. The density ratios allow for a stable stratification of the three layers. LMBs were already considered as part of energy conversion systems in the 1960s and have recently received renewed interest for economical large-scale energy storage. In this paper, we concentrate on the magnetohydrodynamic aspects of this cell type with special focus on electro-vortex flows and possible effects of the Tayler instability.

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Ultrasound Doppler flow measurements in a liquid column under the influence of a strong axial current

Starace¹,

Weber²,

Seilmayer³

et al. 2015

MHD

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Laboratory experiments and numerical simulations on magnetic instabilities

Stefani¹,

Gellert²,

Kasprzyk³

et al. 2016

Preprint

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Laboratory Experiments and Numerical Simulations on Magnetic Instabilities

Stefani

Gellert

Kasprzyk

et al. 2018

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Magnetic fields of planets, stars and galaxies are generated by selfexcitation in moving electrically conducting fluids. Once produced, magnetic fields can play an active role in cosmic structure formation by destabilizing rotational flows that would be otherwise hydrodynamically stable. For a long time, both hydromagnetic dynamo action as well as magnetically triggered flow instabilities had been the subject of purely theoretical research. Meanwhile, however, the dynamo effect has been observed in large-scale liquid sodium experiments in Riga, Karlsruhe and Cadarache. In this paper, we summarize the results of some smaller liquid metal experiments devoted to various magnetic instabilities such as the helical and the azimuthal magnetorotational instability, the Tayler instability, and the different instabilities that appear in a magnetized spherical Couette flow. We conclude with an outlook on a large scale Tayler-Couette experiment using liquid sodium, and on the prospects to observe magnetically triggered instabilities of flows with positive shear.

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C. Kasprzyk

Transitions in a magnetized quasi-laminar spherical Couette flow

Magnetohydrodynamic effects in liquid metal batteries

Ultrasound Doppler flow measurements in a liquid column under the influence of a strong axial current

Laboratory experiments and numerical simulations on magnetic instabilities

Laboratory Experiments and Numerical Simulations on Magnetic Instabilities

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