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Modeling of triboelectric separation of plastic particles in electric field

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
Computer Applications in Electrical Engineering 2012 (23-24.04.2012; Poznań, Polska)
Języki publikacji
EN
Abstrakty
EN
A device for electrostatic separation of triboelectrically charged plastic particles is modelled and optimized. Electric field in the system is solved numerically by a fully adaptive higher-order finite element method. The movement of particles in the device is determined by means of an adaptive Runge-Kutta-Fehlberg method. The shape optimization of the electrodes is carried out using a technique based on higher-order conjugate gradients. The methodology is illustrated by a typical example.
Rocznik
Tom
Strony
107--117
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
  • University of West Bohemia 306 14 Plzen, Univerzitni 26
autor
  • University of West Bohemia 306 14 Plzen, Univerzitni 26
autor
  • University of West Bohemia 306 14 Plzen, Univerzitni 26
autor
  • Czech Technical University 166 27 Praha 6, Technicka 2
Bibliografia
  • [1] Pearse M. J., Hicky T. J., The Separation of Mixed Plastics Using a Dry Triboelectric Technique, Resource Recovery and Conservation, Volume 3, No. 2, pp. 179-190, 1978.
  • [2] Yanar D. K, Kwetkus B. A., Electrostatic Separation of Polymer Powders, Journal of Electrostatics, Volume 36, No. 2-3, pp. 257-266, 1995.
  • [3] Higashyiama Y., Asano, K., Recent Progress in Electrostatic Separation Technology, Particulate Science and Technology, Volume 16, No. 1, pp. 77-90, 1998.
  • [4] Inculet I. I., Castle G. S. P., Brown J. D., Electrostatic Separation for Recycling, Particulate Science and Technology, Volume 16, No. 1, pp. 91-100, 1998.
  • [5] Dodbiba G., Shibayama A., Miyazaki T., Fujita T., Triboelectrostatic Separation of ABS, PS and PP Plastic Mixtures, Material Transactions, Volume 44, No. 1, pp. 161-166, 2003.
  • [6] Wei J., Realff M. J., Design and Optimization of Free-Fall Electrostatic Separators for Plastics Recycling, AIChE Journal, Volume 49, No. 12, pp. 3138-3149, 2003.
  • [7] Saeki M., Triboelectric Separation of Three-Component Plastic Mixture, Particulate Science and Technology, Volume 26, No. 5, pp. 494-506, 2008.
  • [8] Tilmatine A., Medles K., Younes M., Bendaoud A., Dascalescu L., Roll-Type versus Free-Fall Electrostatic Separation of Tribocharged Plastic Particles. IEEE Trans. Industry Appl., Volume 46, No. 4, pp. 1564-1569, 2010.
  • [9] Moesner F. M., Toshiro H., Contactless Manipulation of Microparts by Electric Field Traps. Proc. SPIE's Int. Symposium on Microrobotics and Microsystem Fabrication, October 1997, Pittsburgh, USA, Volume 3202, pp. 168-175.
  • [10] Duff N., Lacks D. J., Particle Dynamics Simulation of the Effect of Particle Size Distribution on Triboelectric Charging in Granular Insulator System, Journal of Physics, Conference Series, Volume 142, No. 1, 2008, doi:10.1088/1742- 6596/142/1/012078.
  • [11] Kuczmann M., Iványi A., The Finite Element Method in Magnetics, Akademiai Kiadó, Budapest, 2008.
  • [12] Code Agros2D: http://agros2d.org.
  • [13] Code Hermes2D: http://hpfem.org/hermes.
  • [14] Šolín P., Segeth K., Doležel I., Higher-Order Finite Element Methods, Chapman & Hall/CRC, Boca Raton, FL, USA, 2003.
  • [15] Šolín P., Červený J., Doležel I., Arbitrary-Level Hanging Nodes and Automatic Adaptivity in the hp-FEM, Math. Comput. Simul., Volume 77, No. 1, pp. 117-132, 2008.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3d312014-4f12-456a-af36-c788b11cd2f6
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