Electrolyte flow in an external magnetic field: a dimensionless analysis
Weerasiri, L.D. and Das, S. 2015, Electrolyte flow in an external magnetic field: a dimensionless analysis, in ICMRP 2015 : Proceedings of the 3rd Innovation Challenges in Multidisciplinary Research & Practice, Global Illuminators, Singapore, pp. 96-105.
In this paper, some recent work on the flow induced by an external magnetic fields acting on electrochemical cell is reviewed. Although the influence of the magnetic field on the hydrodynamics has been studied for over 5 decades, the magnetohydrodynamics (MHD) remains relatively unfamiliar to all but a few research groups. There are nearly a countless number of dimensionless parameters in electrolytic flow (bubble induced flow) and MHD, but they have been introduced for convenience by different authors. The similitude parameter proposed by Solheim, Johansen, Rolseth, and Thonstad (1989) and Perron, Kiss, and Poncsák (2006) have been modified to provide a full set of parameters for electrolytic cell operating under external magnetic field. The bubble sliding characteristics underneath an inclined plane are studied using copper sulphate solution (as an electrolyte) in lab-based-scale and discussed.
ISBN
9789699948206
Language
eng
Field of Research
091404 Mineral Processing/Beneficiation
Socio Economic Objective
850701 Commercial Energy Conservation and Efficiency
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