Electromagnetic flow rate measurement in molten tin circulating in a closed-loop test system

Flow rate measurement in molten metals at elevated temperatures is still a challenging task in metallurgie application. Due to the opaqueness and chemical aggressiveness of such melts, non-contact and non-invasive electromagnetic methods are of special interest. In order to develop and to test such...

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Bibliographic Details
Published inIOP conference series. Materials Science and Engineering Vol. 424; no. 1; pp. 12084 - 12087
Main Authors Lyu, Z., Karcher, Ch, Kolesnikov, Y., Boeck, Th
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 13.10.2018
Subjects
Closed loops
Contact melting
Electric contacts
Flow control
Flowmeters
Fluid dynamics
Fluid flow
High temperature
Liquid metals
liquid tin
Lorentz force
Lorentz force flowmeter
Mass flow rate
Permanent magnets
Reynolds number
Stainless steels
Test facilities
Tin
wall potential flowmeter
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Summary:Flow rate measurement in molten metals at elevated temperatures is still a challenging task in metallurgie application. Due to the opaqueness and chemical aggressiveness of such melts, non-contact and non-invasive electromagnetic methods are of special interest. In order to develop and to test such methods under controllable laboratory conditions, during the last years at TU Ilmenau we have built up and instrumented the test facility TINTELO (tin test loop). TINTELO is a closed loop facility made of stainless steel in which molten tin at a temperature up to 350°C circulates in the horizontal plane. The flow is driven by an electromagnetic pump based on rotating permanent magnets. The rotation frequency of the pump can be fixed at up to 60 Hz providing a mass flow rate of 17.5 kg/s which corresponds to a Reynolds number of Re = 2·105. TINTELO is instrumented with both a Lorentz force flowmeter and a wall potential flowmeter. The Lorentz force flowmeter measures the force which the electrical conducting moving molten tin exerts on a system of permanent magnets arranged outside of the loop. This force is the counter force to the well-known braking Lorentz force that is proportional to the melt flow rate. Moreover, the wall potential flowmeter records the electric potential difference between two electrodes inserted in the conducting wall of the loop. This potential difference, induced by the moving melt when interacting with an externally applied magnetic field, is proportional to melt velocity. In this paper we present the design and the instrumentation of TINTELO, the calibration methods for the used flowmeters and first results of the flow rate test measurements.
ISSN:1757-8981
1757-899X
1757-899X
DOI:10.1088/1757-899X/424/1/012084