Development of electroimpedance disgnistic method to study the hydrodynamics of polydisperse pulp
I.K. Kabardin1,2, P.D. Lobanov1,2, V.G. Glavny1, V.G. Meledin1,2, N.A. Pribaturin1, M.R. Gordienko1,2, A.D. Rotar1,2, K.S. Zubanov1,2, S.M. Volkov1, V.V. Rakhmanov1, S.V. Kakaulin1,2, I.A. Evdokimenko1
1Novosibirsk State University, Novosibirsk, Russia
2Kutateladze Institute of Thermophysics SB RAS, Novosibirsk, Russia
Keywords: polydisperse pulp, electrical impedance, mesh sensor, matrix diagnostics, ball filling
Abstract
An experimental study of polydisperse pulp hydrodynamics is relevant for the tasks of aluminum production. The diagnostics method of matrix electrical impedance has been developed based on the synchronous recording of the spatial distribution of parameters of the complex conductivity and dielectric permittivity of the medium at the nodes of a wire mesh. This method allows for the study of three-dimensional flows of a multiphase model. The core of the measuring system is a matrix mesh electrical impedance sensor consisting of coordinate-linked sets of conductors whose spatial intersections form the measuring nodes of the system. The tracer is a liquid with a complex electrical conductivity different from that of the main flow. During the measurements, impedances are dynamically recorded at each three-dimensional spatial node of the mesh, determining the parameters of multiphase flows. The study experimentally demonstrated the feasibility of measuring impurity propagation during mixing in liquids with a dynamic range extended to 90 dB.
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