Anode-metal drop formation and detachment mechanisms in liquid metal batteries


Anode-metal drop formation and detachment mechanisms in liquid metal batteries

Benard, S.; Weber, N.; Horstmann, G. M.; Landgraf, S.; Weier, T.

We study numerically localised short-circuits in Li||Bi liquid metal batteries. In the prototype of a classical, three liquid-layer system, we assume a perceptible local deformation of the Li-salt interface. We find that there exists always a critical current at which a Li-droplet is cut off from this hump, and transferred to the Bi-phase. In a second case, we assume that the molten Li is contained in a metal foam, and that a small Li-droplet emerges below this foam due to insufficient wetting. This droplet is deformed by Lorentz forces, until eventually being pinched off. Here, the critical current is slightly lower than in the three layer system, and both, a droplet transfer and complete short-circuits are observed. Finally, we discuss the relevance of our simulations for experimentally observed short-circuits and non-faradaic Li-transfer.

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Permalink: https://www.hzdr.de/publications/Publ-31645
Publ.-Id: 31645