Tribocharging of Mixed Granular Plastics in a Fluidized-Bed Device

The output of any electrostatic separation process is strongly dependent on the effectiveness of particle charging. The aim of the present paper is to evaluate the effects of several factors that might influence the efficiency of a fluidized bed tribocharger, in the presence of an electric field ort...

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Published in:IEEE transactions on industry applications 2011-07, Vol.47 (4), p.1922-1928
Main Authors: Dragan, C., Fati, O., Radu, M., Calin, L., Samuila, A., Dascalescu, L.
Format: Article
Language:English
Subjects:
Atmospheric modeling
Charging
Computer programs
Devices
Electric fields
Electrodes
Electronic waste
electrostatic measurements
electrostatic processes
Fluidization
Fluidized beds
Fluidizing
Granular materials
Granules
Mathematical model
Studies
triboelectricity
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cited_by cdi_FETCH-LOGICAL-c322t-43369b2074cf0b113cd1bf89de83c9071d5d8db44d33f8f1337d4b6aff6893ee3
cites cdi_FETCH-LOGICAL-c322t-43369b2074cf0b113cd1bf89de83c9071d5d8db44d33f8f1337d4b6aff6893ee3
container_end_page 1928
container_issue 4
container_start_page 1922
container_title IEEE transactions on industry applications
container_volume 47
creator Dragan, C.
Fati, O.
Radu, M.
Calin, L.
Samuila, A.
Dascalescu, L.
description The output of any electrostatic separation process is strongly dependent on the effectiveness of particle charging. The aim of the present paper is to evaluate the effects of several factors that might influence the efficiency of a fluidized bed tribocharger, in the presence of an electric field orthogonally oriented to the direction of the fluidization air. The experiments were carried out on several synthetic mixtures of binary granular mixtures. The velocity of the fluidization air, the duration of the tribocharging process, and the composition of the mixture were the three process variables investigated. Whenever possible, the effects of these variables on the output of the process (i.e., the mass and the charge of the granules collected at the electrodes), were evaluated using the experimental design methodology. The results of full- and composite-factorial experimental designs were analyzed with a commercial software (MODDE 5.0, Umetrics). The effectiveness of the charging process was found to depend significantly on each of these factors. The propitious aerodynamic design of the device is a prerequisite for the successful industry application of the technique.
doi_str_mv 10.1109/TIA.2011.2156374
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source IEEE Electronic Library (IEL) Journals
subjects Atmospheric modeling
Charging
Computer programs
Devices
Electric fields
Electrodes
Electronic waste
electrostatic measurements
electrostatic processes
Fluidization
Fluidized beds
Fluidizing
Granular materials
Granules
Mathematical model
Studies
triboelectricity
title Tribocharging of Mixed Granular Plastics in a Fluidized-Bed Device
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