DocumentCode
382957
Title
A linear-interaction model for electrostatic separation processes
Author
Dascalescu, Lucian ; Mihalcioiu, Adrian ; Tilmatine, Amar ; Mihailescu, Michaela ; Iuga, Alexandru ; Samuila, Adrian
Author_Institution
Equipe Electronique et Electrostatique, LAII-ESIP, Angouleme, France
Volume
2
fYear
2002
fDate
13-18 Oct. 2002
Firstpage
1412
Abstract
Previous studies based on Box-Wilson and response surface methods have proven that the design of experiments is a powerful tool in improving electrostatic separation performances by controlling the two main parameters of the process: the high-voltage level and the roll speed. The aim of the present paper is to analyze the possibility of deriving a mathematical model capable to reflect the effects of a larger number of factors, as well as their main interactions. At first, the main variables of the process were listed and classified in accordance with the ease of controlling them. Then two experimental designs were chosen, in accordance with Taguchi´s methodology. The objective was to minimize the middling fraction. The experiments were carried out on a laboratory roll-type electrostatic separator, provided with a corona electrode and a tubular electrode, both connected to a DC high-voltage supply. The samples of processed material were prepared from genuine chopped electric wire wastes (granule size >1 mm and <2 mm) containing 25% copper and 75% PVC. The first experiment consisted of 16 tests, which enabled the derivation of a linear-interaction model comprising 7 variables and 8 interactions. The second experiment consisted of only 8 tests, as the corresponding model took into consideration 4 variables and 3 interactions. A good agreement was obtained between the two models.
Keywords
Taguchi methods; corona; design of experiments; electrodes; electrostatic precipitators; electrostatics; separation; Box-Wilson methods; DC high-voltage supply; Taguchi methodology; chopped electric wire wastes; corona electrode; design of experiments; electrostatic separation processes; high-voltage level control; laboratory roll-type electrostatic separator; linear-interaction model; mathematical model; response surface methods; roll speed control; tubular electrode; Design for experiments; Electric variables control; Electrodes; Electrostatics; Laboratories; Mathematical model; Particle separators; Response surface methodology; Separation processes; Testing;
fLanguage
English
Publisher
ieee
Conference_Titel
Industry Applications Conference, 2002. 37th IAS Annual Meeting. Conference Record of the
Conference_Location
Pittsburgh, PA, USA
ISSN
0197-2618
Print_ISBN
0-7803-7420-7
Type
conf
DOI
10.1109/IAS.2002.1042741
Filename
1042741
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