Energy Based Calculation of the Second-Order Levitation in Magnetic Fluid

Energy Based Calculation of the Second-Order Levitation in Magnetic Fluid

A permanent magnet immersed in magnetic fluid experiences magnetic levitation force which is of the buoyant type. This phenomenon commonly refers to self-levitation or second-order buoyancy. The stable levitation height of the permanent magnet can be attained by numerical evaluation of the force. Va...

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Veröffentlicht in:Mathematics (Basel) 2021-10, Vol.9 (19), p.2507
Hauptverfasser: Trbušić, Mislav, Jesenik, Marko, Trlep, Mladen, Hamler, Anton
Format: Artikel
Sprache:eng
Schlagworte:
Energy
Equilibrium
finite element method (FEM)
Food science
Gravity
Magnetic fields
magnetic fluid
magnetic fluid levitation force
Magnetic fluids
Magnetic levitation
magnetic levitation force
Mathematical analysis
Permanent magnets
Permeability
second-order buoyancy
Software
surface integral method
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Zusammenfassung:A permanent magnet immersed in magnetic fluid experiences magnetic levitation force which is of the buoyant type. This phenomenon commonly refers to self-levitation or second-order buoyancy. The stable levitation height of the permanent magnet can be attained by numerical evaluation of the force. Various authors have proposed different computational methods, but all of them rely on force formulation. This paper presents an alternative energy approach in the equilibrium height calculation, which was settled on the minimum energy principle. The problem, involving a cylindrical magnet suspended in a closed cylindrical container full of magnetic fluid, was considered in the study. The results accomplished by the proposed method were compared with those of the well-established surface integral method already verified by experiments. The difference in the results gained by both methods appears to be under 2.5%.
ISSN:2227-7390
2227-7390
DOI:10.3390/math9192507