Triboelectric Separation of Binary Plastic Mixture
Authors: M. Saeki
Abstract:
This paper presents the results of an experimental study on the performance of a triboelectric separator of plastic mixtures used for recycling. The separator consists of four cylindrical electrodes. The principle behind the separation technique is based on the difference in the Coulomb force acting on the plastic particles after triboelectric charging. The separation of mixtures of acrylonitrile butadiene styrene (ABS) and polystyrene (PS) using this method was studied. The effects of the triboelectric charging time and applied voltage on the separation efficiency were investigated. The experimental results confirm that it is possible to obtain a high purity and recovery rate for the initial compositions considered in this study.
Keywords: Coulomb force, recycling, triboelectric separator, waste plastics.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1062244
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[1] J. Cui and E. Forssberg, "Mechanical recycling of waste electric and electronic equipment: a review," J. of Hazardous materials, B99, 2003, pp. 243-263.
[2] M. J. Pearse and T. J. Hicky, "The separation ofmixed plastics using a dry, triboelectric technique", Resource Recovery and Conservation, vol. 3, 1978, pp. 179-190.
[3] Y. Matsushita, N. Mori, and T. Sometani, "Electrostatic separation of plastics by a friction mixer with rotary blades (in Japanese)", Transactions of IEEE Japan, vol. 117-D, No. 12, 1997´╝î1449-1454.
[4] Y. Higashiyama and K. Asano, "Recent progress in electrostatic separation technology," Particulate science and technology, vol. 16, 1998, pp. 77-90.
[5] I. I. Inculet, G. S. P. Castle, and J. D. Brown, "Electrostatic separation of plastics for recycling", Particulate Science and Technology, vol. 16, 1998, 91-100.
[6] C. Xiao, M. B. Biddle, and M. M. Fisher, "Electrostatic separation and recovery of mixed plastics", SPE Recycling Div. Annual Recycling Conference, 1999, 221-230.
[7] G. Dodbiba, A. Shibayama, T. Miyazaki and T. Fujita, "Triboelectrostatic separation of ABS, PS and PP plastic mixture", Materials Transactions, vol. 44-1, 2003, 161-166.
[8] G. Dodbiba, A. Shibayama, J. Sadaki, and T. Fujita, "Combination of Triboelectrostatic Separation and Air Tabling for Sorting Plastics from a Multi-Component Plastic Mixture", Materials Transactions, Vol. 44, No.12, 2003, 2427-2435.
[9] J. Wei, and M. J. Realff, "Design and optimization of free-fall electrostatic separators for plastics recycling", AIChE Journal, Vol. 49, No. 12, 2003, 3138-3149.
[10] A. Iuga, L. Calin, V. Neamtu,A. Mihalcioiu, and L. Dascalescu, "Tribocharging of plastics granulates in a fluidized bed devices", J. Electrostatics, vol. 63, 2005, 937-942.
[11] M. Saeki, "Vibratory separation plastic mixturesusing triboelectric charging", Particulate Science and Technology, vol. 24, 2006, 153-164.
[12] M. Saeki, "Triboelectric separation of three-component plastic mixture", Particulate Science and Technology, vol. 26, 2008, 494-506.