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First Thermal and Fluids Engineering Summer Conference

ISSN: 2379-1748


Ekaterina Y. Koroteeva
Faculty of Physics, Lomonosov Moscow State University, 1 Leninskie Gory, Moscow, 119991, Russia

Mihails Scepanskis
University of Latvia, Laboratory for Mathematical Modeling of Environmental and Technological Processes, Zellu iela 8, Riga LV-1002, Latvia

I. Bucenieks
Institute of Physics, University of Latvia, Miera street 32, Salaspils, LV-2169, Latvia

E. Platacis
Institute of Physics, University of Latvia, Miera street 32, Salaspils, LV-2169, Latvia

DOI: 10.1615/TFESC1.tia.012977
pages 2109-2116

KEY WORDS: Induction pump on permanent magnets (PMP), Applied MHD, Liquid metal flow control, ANSYS simulations


We perform a numerical study of a disks type electromagnetic induction pump based on permanent rotating magnets (PMP). The theoretical analysis of such pumps is complicated and cumbersome since the system is non-symmetrical and highly three-dimensional, so that the magnetic field and, hence, the induced electromagnetic forces are distributed non-uniformly in the radial direction. In this work, the numerical model of a liquid metal flow in a semi-circular duct between two rotating disks has been developed. Lorentz forces acting on the molten metal are calculated using ANSYS 14.0 Mechanical software and then exported as an external force source for the fluid dynamic analysis which is performed independently by ANSYS CFX Solver. An iterative fully coupled scheme for electromagnetic and hydrodynamic simulations has been implemented. The model allows for the calculation and subsequent analysis of the flow parameters and the pressure-flow rate characteristics of the pump. The results are found to be consistent with the existing experimental data.

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