Energies, Journal Year: 2025, Volume and Issue: 18(9), P. 2194 - 2194
Published: April 25, 2025
This paper is devoted to the problem of magnetohydrodynamic stability (MHDS) in energy-intensive process primary aluminum production by electrolysis. Improving MHDS control important because high costs and reduced efficiency caused instability magnetic current fields. In this work, a methodological analysis modern theoretical numerical methods for studying was carried out, approaches optimizing fields algorithms aimed at stabilizing reducing energy were considered. review identified key challenges proposed promising directions, including application computational artificial intelligence monitor electrolysis real time. paper, it revealed that wave MHD metal–electrolyte phase boundary physical obstacle further specific increasing stability. The novelty lies an integrated approach combines modeling practical recommendations. purpose study systematically summarize scientific data, analyze factors affecting electrolyzers, determine directions their solution. results can be used improve environmental friendliness production.
Language: Английский