https://doi.org/10.1051/epjap:2007076
Quantifying of magnetically separated particles using Hall-effect sensing
1
Laboratoire d'Electrotechnique (LEC), Université Mentouri, Route
Ain Elbey 25000, Constantine, Algeria
2
IREENA-IUT-CRTT, 37 Boulevard de l'Université, BP 406, 44602 Saint-Nazaire Cedex, France
Corresponding authors: mehasni@yahoo.fr med_latreche@yahoo.fr mouloud.feliachi@univ-nantes.fr
Received:
18
January
2007
Accepted:
3
April
2007
Published online:
30
May
2007
In this paper, we present a modeling of a captured ferromagnetic particles quantifying method based on the detection and evaluation of the magnetic field variation caused by the particle static buildup. The detecting element is a Hall-effect sensor (probe) associated to the particle capture element which is an electromagnet with iron core. From a known value of the magnetic field measured at the particle static buildup locality, we predict the particle global concentration in the treated material sample (powder or liquid). This prediction is achieved by solving the inverse problem for the captured particles magnetic field variation. Such a resolution is based on an iterative resolution of the forward problem until obtaining the global particle concentration related to the measured value of the field variation. Because an exact value can not be obtained we retain the value that minimizes an error function. To minimize such a function we have used the Tabu searching method.
PACS: 75.40.Mg – Numerical simulation studies / 89.20.-a – Interdisciplinary applications of physics / 02.30.Zz – Inverse problems / 85.70.Ay – Magnetic device characterization, design, and modeling
© EDP Sciences, 2007
