Experimental modeling of the electrostatic separation of granular materials

Particulate Science and Technology

Volumn 25, Issue 2, 2007, Pages 163-171

  Medles, K ^a   Dascalescu, L ^a   Tilmatine, A ^b   Bendaoud, A ^b   Younes, M ^b  

^a University Institute of Technology   (France)

^b UNIVERSITY OF SIDI BEL ABBES   (Algeria)

Author keywords

Design of experiments; Electrostatic separation; Experimental modeling

Indexed keywords

CONDUCTIVE MATERIALS; DESIGN OF EXPERIMENTS; ELECTRIC CABLES; ELECTROSTATIC SEPARATORS; MATHEMATICAL MODELS; MIXTURES;

ANGULAR POSITION; EXPERIMENTAL MODELING; GRANULAR MIXTURE; RESPONSE FUNCTION;

GRANULAR MATERIALS;

COPPER; POLYVINYLCHLORIDE;

ARTICLE; COMPOSITE MATERIAL; COMPUTER PROGRAM; ELECTRIC CONDUCTIVITY; ELECTRIC POTENTIAL; ELECTRICITY; EXPERIMENTAL MODEL; MATERIALS TESTING; PARTICLE SIZE; PHASE SEPARATION; PREDICTION; PRIORITY JOURNAL; PROCESS DESIGN; SEPARATION TECHNIQUE;

EID: 34047169831     PISSN: 02726351     EISSN: 15480046     Source Type: Journal    
DOI: 10.1080/02726350701257816     Document Type: Article

References (10)

1. Dascalescu, L., S. Billaud, A. Tilmatine, R. Köhnlechner, & M. Mihailescu. 2004. Optimisation of electrostatic separation processes using response surface modelling. IEEE Trans. Ind. Appl. 40: 53-59.
2. Dascalescu, L., A. Samuila, A. Mihalcioiu, S. Bente, & A. Tilmatine. 2003. Robust control of electrostatic separation processes. In Proceedings of the ESA-IEEE Joint Meeting on Electrostatics, 2003, University of Arkansas, Little Rock, Arkansas. Laplacian Press. pp. 131-140.
3. Delon, J. F. 1966. Théorie de la séparation électrostatique à l'aide de l'effet corona. Ann. Mines 3: 37-50.
4. Eriksson, L., E. Johansson, N. Kettaneh-Wold, C. Wikstöm, & S. Wold. 2000. Design of Experiments: Principles and Applications. Umeaa, Sweden: Umetrics.
5. Frigon, N. L. & D. Mathews. 1996. Practical Guide to Experimental Design. New York: John Wiley.
6. Goupy, J. 1999. Plans d'expériences pour surfaces de réponse. Paris: Dunod.
7. Higashiyama, Y. & K. Asano. 1998. Recent progress in electrostatic separation technology. Part. Sci.Technol. 16: 77-90.
8. Medles, K., A. Tilmatine, A. Bendaoud, K. Senouci, S. Das, A. Mihalcioiu, & L. Dascalescu. 2005. Capability evaluation and statistic control of electrostatic separation processes. InProceedings of the IEEE, IAS Annual Meeting 2005, vol. 4. Piscataway, N.J.: IEEE. pp. 2590-2596.
9. Medles, K., A. Tilmatine, M. Younes, S. Flazi, & L. Dascalescu. 2004. Set point identification and robustness testing of electrostatic separation processes. In Proceedings of the IEEE, IAS Annual Meeting 2004, vol. 4. Piscataway, N.J.: IEEE. pp. 422-429.
10. Mihailescu, M., A. Samuila, A. Urs, R. Morar, & A. Iuga. 2002. Computer-assisted experimental design for optimization of electrostatic separation processes. IEEE Trans. Ind. Appl. 38: 1174-1181.