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2017 | OriginalPaper | Chapter

Valuable Metals and Energy Recovery from Electronic Waste Streams

Authors : Fiseha Tesfaye, Daniel Lindberg, Joseph Hamuyuni

Published in: Energy Technology 2017

Publisher: Springer International Publishing

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Abstract

E-waste management through traditional methods such as disposing in landfills, burning in incinerators or exporting abroad for disposal are no longer options due to the strict environmental regulations. Fortunately, the presence of valuable metals in the e-waste and increasing demand for the metals as well as complexities of the currently available primary raw materials make recycling an attractive and viable option both environmentally and economically. Moreover, it is efficient in terms of resource management by closing the loop of metals. Consequently, urban mining such as the recovery of precious metals from e-waste streams through sustainable recycling processes have emerged. The sustainable recycling practices address the scarcity of primary resources and reduce consumption of energy for metals production while managing environmental issues related to hazardous materials from the e-waste streams. In this paper, valuable metals recoveries from e-waste streams through pyrometallurgical and hydrometallurgical processes are critically reviewed. And, innovative ideas for different steps of the thermochemical processes in the valuable metals and energy recovery from the e-waste streams are discussed.

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Literature
1.
go back to reference BIO Intelligence Service, in Review of the scope of the directive 2012/19/EU on Waste Electrical and Electronic Equipment (WEEE), Final report prepared for European Commission–DG Environment (2013), p. 116 BIO Intelligence Service, in Review of the scope of the directive 2012/19/EU on Waste Electrical and Electronic Equipment (WEEE), Final report prepared for European Commission–DG Environment (2013), p. 116
2.
go back to reference European Parliament, Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment (WEEE). Official J. Eur. Union L37, 24–38 (2003) European Parliament, Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment (WEEE). Official J. Eur. Union L37, 24–38 (2003)
3.
go back to reference B.H. Robinson, E-waste: an assessment of global production and environmental impacts. Sci. Total Environ. 408, 183–191 (2009)CrossRef B.H. Robinson, E-waste: an assessment of global production and environmental impacts. Sci. Total Environ. 408, 183–191 (2009)CrossRef
4.
go back to reference Copper Studies, E-Scrap: Urban Riches, vol. 38 (Commodities Research Unit, London, UK, 2011) Copper Studies, E-Scrap: Urban Riches, vol. 38 (Commodities Research Unit, London, UK, 2011)
5.
go back to reference APME (Association of Plastics Manufacturers in Europe), in Plastics–A Material of Choice for the Electrical and Electronic Industry, Plastics Consumption and Recovery in Western Europe, APME Report Code. 98-2004, (Brussels, Belgium, 1995) APME (Association of Plastics Manufacturers in Europe), in Plastics–A Material of Choice for the Electrical and Electronic Industry, Plastics Consumption and Recovery in Western Europe, APME Report Code. 98-2004, (Brussels, Belgium, 1995)
6.
go back to reference C. Hagelüken, Improving Metal Returns and Eco-Efficiency in Electronics Recycling–A Holistic Approach for Interface Optimisation between Pre-Processing and Integrated Metals Smelting and Refining. In: Proceedings of the IEEE International Symposium on Electronics and the Environment, Scottsdale, AZ, USA (2006) C. Hagelüken, Improving Metal Returns and Eco-Efficiency in Electronics Recycling–A Holistic Approach for Interface Optimisation between Pre-Processing and Integrated Metals Smelting and Refining. In: Proceedings of the IEEE International Symposium on Electronics and the Environment, Scottsdale, AZ, USA (2006)
7.
go back to reference M. Buchert, A. Manhart, D. Bleher, D. Pingel, Recycling critical raw materials from waste electronic equipment, Commissioned by the North Rhine Westphalia State Agency for Nature, Environment and Consumer Protection, Öko-Institut eV, (Freiburg, Germany, 2012), p. 80 M. Buchert, A. Manhart, D. Bleher, D. Pingel, Recycling critical raw materials from waste electronic equipment, Commissioned by the North Rhine Westphalia State Agency for Nature, Environment and Consumer Protection, Öko-Institut eV, (Freiburg, Germany, 2012), p. 80
8.
go back to reference Y.J. Park, D.J. Fray, Recovery of high purity precious metals from printed circuit boards. J. Hazard. Mater. 164, 1152–1158 (2009) Y.J. Park, D.J. Fray, Recovery of high purity precious metals from printed circuit boards. J. Hazard. Mater. 164, 1152–1158 (2009)
9.
go back to reference I.O. Ogunniyi, M.K.G. Vermaak, D.R. Groot, Chemical composition and liberation characterization of printed circuit board comminution fines for beneficiation investigations. Waste Manag. 29, 2140–2146 (2009)CrossRef I.O. Ogunniyi, M.K.G. Vermaak, D.R. Groot, Chemical composition and liberation characterization of printed circuit board comminution fines for beneficiation investigations. Waste Manag. 29, 2140–2146 (2009)CrossRef
10.
go back to reference J. Puckett, L. Byster, S. Westervelt, R. Gutierrez, S. Davis, A. Hussain, M. Dutta, Exporting Harm—The High-Tech Trashing of Asia (The Basel Action Network (BAN) Silicon Valley Toxics Coalition (SVTC), Seattle, WA, USA, 2002) J. Puckett, L. Byster, S. Westervelt, R. Gutierrez, S. Davis, A. Hussain, M. Dutta, Exporting Harm—The High-Tech Trashing of Asia (The Basel Action Network (BAN) Silicon Valley Toxics Coalition (SVTC), Seattle, WA, USA, 2002)
11.
go back to reference M.P. Luda, Recycling of printed circuit boards. Integr. Waste Manag. 2, 285–299 (2010) M.P. Luda, Recycling of printed circuit boards. Integr. Waste Manag. 2, 285–299 (2010)
12.
go back to reference J. Moltó, R. Font, A. Gálvez, J.A. Conesa, Pyrolysis and combustion of electronic wastes. J. Anal. Appl. Pyrolysis 84, 68–78 (2009)CrossRef J. Moltó, R. Font, A. Gálvez, J.A. Conesa, Pyrolysis and combustion of electronic wastes. J. Anal. Appl. Pyrolysis 84, 68–78 (2009)CrossRef
13.
go back to reference J. Wienold, S. Recknagel, H. Scharf, M. Hoppe, M. Michaelis, Elemental analysis of printed circuit boards considering the ROHS regulations. Waste Manag. 31, 530–535 (2011)CrossRef J. Wienold, S. Recknagel, H. Scharf, M. Hoppe, M. Michaelis, Elemental analysis of printed circuit boards considering the ROHS regulations. Waste Manag. 31, 530–535 (2011)CrossRef
14.
go back to reference G. Jie,; L. Ying-Shun,; L. Mai-Xi, Product characterization of waste printed circuit board by pyrolysis, J. Anal. Appl. Pyrolysis 83, 185–189 (2008) G. Jie,; L. Ying-Shun,; L. Mai-Xi, Product characterization of waste printed circuit board by pyrolysis, J. Anal. Appl. Pyrolysis 83, 185–189 (2008)
15.
go back to reference H.M. Veit, A.M. Bernardes, J.Z. Ferreira, J.A. Tenório, C. de Fraga Malfatti, Recovery of copper from printed circuit boards scraps by mechanical processing and electrometallurgy. J. Hazard. Mater. 137, 1704–1709 (2006)CrossRef H.M. Veit, A.M. Bernardes, J.Z. Ferreira, J.A. Tenório, C. de Fraga Malfatti, Recovery of copper from printed circuit boards scraps by mechanical processing and electrometallurgy. J. Hazard. Mater. 137, 1704–1709 (2006)CrossRef
16.
go back to reference J. Li, Z. Xu, Y. Zhou, Application of corona discharge and electrostatic force to separate metals and nonmetals from crushed particles of waste printed circuit boards. J. Electrost. 65, 233–238 (2007)CrossRef J. Li, Z. Xu, Y. Zhou, Application of corona discharge and electrostatic force to separate metals and nonmetals from crushed particles of waste printed circuit boards. J. Electrost. 65, 233–238 (2007)CrossRef
17.
go back to reference H. Lu, J. Li, J. Guo, Z. Xu, Movement behavior in electrostatic separation: recycling of metal materials from waste printed circuit board. J. Mater. Process. Technol. 197, 101–108 (2008)CrossRef H. Lu, J. Li, J. Guo, Z. Xu, Movement behavior in electrostatic separation: recycling of metal materials from waste printed circuit board. J. Mater. Process. Technol. 197, 101–108 (2008)CrossRef
18.
go back to reference C.E.M. Meskers, C. Hagelüken, S. Salhofer, M. Spitzbart, Impact of Pre-Processing Routes on Precious Metal Recovery from PCs, in Proceedings of the European Metallurgical Conference (EMC), (Innsbruck, Austria, 2009) C.E.M. Meskers, C. Hagelüken, S. Salhofer, M. Spitzbart, Impact of Pre-Processing Routes on Precious Metal Recovery from PCs, in Proceedings of the European Metallurgical Conference (EMC), (Innsbruck, Austria, 2009)
19.
go back to reference V. Ari, A review of technology of metal recovery from electronic waste, in E-Waste in Transition—From Pollution to Resource, ed. by F.-C. Mihai, InTech, doi:10.5772/61569 V. Ari, A review of technology of metal recovery from electronic waste, in E-Waste in Transition—From Pollution to Resource, ed. by F.-C. Mihai, InTech, doi:10.​5772/​61569
20.
go back to reference J. Guo, Z. Xu, Recycling of non-metallic fractions from waste printed circuit boards: a review. J. Hazard. Mater. 168, 567–590 (2009)CrossRef J. Guo, Z. Xu, Recycling of non-metallic fractions from waste printed circuit boards: a review. J. Hazard. Mater. 168, 567–590 (2009)CrossRef
21.
go back to reference J. Cui, L. Zhang, Metallurgical recovery of metals from electronic waste: a review. J. Hazard. Mater. 158, 228–256 (2008)CrossRef J. Cui, L. Zhang, Metallurgical recovery of metals from electronic waste: a review. J. Hazard. Mater. 158, 228–256 (2008)CrossRef
22.
go back to reference H. Veldbuizen, B. Sippel, Mining discarded electronics. Indus. Environ. 17, 7–11 (1994) H. Veldbuizen, B. Sippel, Mining discarded electronics. Indus. Environ. 17, 7–11 (1994)
23.
go back to reference L. Theo, Integrated recycling of non-ferrous metals at Boliden Ltd. Rönnskär smelter, in Proceedings of IEEE International Symposium on Electronics and the Environment, (1999), pp. 42–47 L. Theo, Integrated recycling of non-ferrous metals at Boliden Ltd. Rönnskär smelter, in Proceedings of IEEE International Symposium on Electronics and the Environment, (1999), pp. 42–47
24.
go back to reference J. Leirnes, M. Lundstrom, in Method for Working-Up-Metal-Containing Waste Products, (US Patent. US4415360 (C22B 1/00), 1983) J. Leirnes, M. Lundstrom, in Method for Working-Up-Metal-Containing Waste Products, (US Patent. US4415360 (C22B 1/00), 1983)
25.
go back to reference Y. Chehade, A. Siddique, H. Alayan, N. Sadasivam, S. Nusri, T. Ibrahim, Recovery of gold, silver, palladium, and copper from waste printed circuit boards, in Proceedings of the International Conference on Chemical, Civil and Environment Engineering (ICCEE), (Dubai, United Arab Emirates, 2012) Y. Chehade, A. Siddique, H. Alayan, N. Sadasivam, S. Nusri, T. Ibrahim, Recovery of gold, silver, palladium, and copper from waste printed circuit boards, in Proceedings of the International Conference on Chemical, Civil and Environment Engineering (ICCEE), (Dubai, United Arab Emirates, 2012)
26.
go back to reference N. Dhawan, M. Kumar, V. Kumar, M. Wadhwa, Recovery of metals from electronic scrap by hydrometallurgical route, in Proceedings of the Global Symposium on Recycling, Waste Treatment and Clean Technology (REWAS), (Cancun, Mexico, 2008), pp. 693–698 N. Dhawan, M. Kumar, V. Kumar, M. Wadhwa, Recovery of metals from electronic scrap by hydrometallurgical route, in Proceedings of the Global Symposium on Recycling, Waste Treatment and Clean Technology (REWAS), (Cancun, Mexico, 2008), pp. 693–698
27.
go back to reference N. Dhawan, V. Kumar, M. Kumar, Recovery of metals from electronic scrap by hydrometallurgical route, in Extraction and Processing Division (EPD) Congress; The Minerals, Metals and Materials Society, (Warrendale, PA, USA, 2009), pp. 1107–1109 N. Dhawan, V. Kumar, M. Kumar, Recovery of metals from electronic scrap by hydrometallurgical route, in Extraction and Processing Division (EPD) Congress; The Minerals, Metals and Materials Society, (Warrendale, PA, USA, 2009), pp. 1107–1109
28.
go back to reference M. Delfini, M. Ferrini, A. Manni, P. Massacci, L. Piga, Antonio Scoppettuolo Optimization of precious metal recovery from waste electrical and electronic equipment boards. J. Environ. Prot. 2, 675–682 (2011)CrossRef M. Delfini, M. Ferrini, A. Manni, P. Massacci, L. Piga, Antonio Scoppettuolo Optimization of precious metal recovery from waste electrical and electronic equipment boards. J. Environ. Prot. 2, 675–682 (2011)CrossRef
29.
go back to reference M. Sadegh Safarzadeh, M.S. Bafghi, D. Moradkhani, M. Ojaghi Ilkhchi, A review on hydrometallurgical extraction and recovery of cadmium from various resources. Miner. Eng. 20, 211–220 (2007)CrossRef M. Sadegh Safarzadeh, M.S. Bafghi, D. Moradkhani, M. Ojaghi Ilkhchi, A review on hydrometallurgical extraction and recovery of cadmium from various resources. Miner. Eng. 20, 211–220 (2007)CrossRef
30.
go back to reference G.M. Ritcey, Solvent extraction in hydrometallurgy: present and future. Tsinghua Sci. Technol. 11, 137–152 (2006)CrossRef G.M. Ritcey, Solvent extraction in hydrometallurgy: present and future. Tsinghua Sci. Technol. 11, 137–152 (2006)CrossRef
31.
go back to reference B. Yang, Ion exchange in organic extractant system. Ion Exch. Adsorp. 10, 168–179 (1994) B. Yang, Ion exchange in organic extractant system. Ion Exch. Adsorp. 10, 168–179 (1994)
32.
go back to reference M. Shamsuddin, Metal recovery from scrap and waste. J. Metals 38, 24–31 (1986) M. Shamsuddin, Metal recovery from scrap and waste. J. Metals 38, 24–31 (1986)
33.
go back to reference L.L. Tavlarides, J.H. Bae, C.K. Lee, Solvent extraction, membranes, and ion exchange in hydrometallurgical dilute metals separation. Sep. Sci. Technol. 22, 581–617 (1985)CrossRef L.L. Tavlarides, J.H. Bae, C.K. Lee, Solvent extraction, membranes, and ion exchange in hydrometallurgical dilute metals separation. Sep. Sci. Technol. 22, 581–617 (1985)CrossRef
34.
go back to reference V.M. Paretsky, N.I. Antipov, A.V. Tarasov, Hydrometallurgical method for treating special alloys, jewelry, electronic and electrotechnical scrap, in Proceedings of the Minerals, Metals & Materials Society (TMS) Annual Meeting, (Charlotte, NC, USA, 2004), pp. 713–721 V.M. Paretsky, N.I. Antipov, A.V. Tarasov, Hydrometallurgical method for treating special alloys, jewelry, electronic and electrotechnical scrap, in Proceedings of the Minerals, Metals & Materials Society (TMS) Annual Meeting, (Charlotte, NC, USA, 2004), pp. 713–721
35.
go back to reference G. Hilson, A.J. Monhemius, Alternatives to cyanide in the gold mining industry: what prospects for the future? J. Clean. Prod. 14, 1158–1167 (2006)CrossRef G. Hilson, A.J. Monhemius, Alternatives to cyanide in the gold mining industry: what prospects for the future? J. Clean. Prod. 14, 1158–1167 (2006)CrossRef
36.
go back to reference S.R. La Brooy, H.G. Linge, G.S. Walker, Review of gold extraction from ores. Miner. Eng. 7, 1213–1241 (1994)CrossRef S.R. La Brooy, H.G. Linge, G.S. Walker, Review of gold extraction from ores. Miner. Eng. 7, 1213–1241 (1994)CrossRef
37.
go back to reference H. Antrekowitsch, M. Potesser, W. Spruzina, F. Prior, Metallurgical recycling of electronic scrap, in Proceedings of the EPD Congress, (San Antonio, TX, USA, 2006); pp. 12–16 H. Antrekowitsch, M. Potesser, W. Spruzina, F. Prior, Metallurgical recycling of electronic scrap, in Proceedings of the EPD Congress, (San Antonio, TX, USA, 2006); pp. 12–16
38.
go back to reference A. Anindya, D.R. Swinbourne, M.A. Reuter, R.W. Matusewicz, Distribution of elements between copper and FeOx-CaO-SiO2 slags during pyrometallurgical processing of WEEE. Miner. Process. Extr. Metall. 122, 165–173 (2013)CrossRef A. Anindya, D.R. Swinbourne, M.A. Reuter, R.W. Matusewicz, Distribution of elements between copper and FeOx-CaO-SiO2 slags during pyrometallurgical processing of WEEE. Miner. Process. Extr. Metall. 122, 165–173 (2013)CrossRef
39.
go back to reference B. Lindquist, 35 years of progress in environmental strategy and technology in non-ferrous metals mining and smelting industry, in Presentation at the International Conference on Clean Technologies for the Mining Industries, (Santiago, Chile, 2008), p. 10 B. Lindquist, 35 years of progress in environmental strategy and technology in non-ferrous metals mining and smelting industry, in Presentation at the International Conference on Clean Technologies for the Mining Industries, (Santiago, Chile, 2008), p. 10
40.
go back to reference J. Huisman, L.N. Stevels, Eco-efficiency of take-back and recycling, a comprehensive approach. IEEE Trans. Electron. Packag. Manuf. 29, 83–90 (2006)CrossRef J. Huisman, L.N. Stevels, Eco-efficiency of take-back and recycling, a comprehensive approach. IEEE Trans. Electron. Packag. Manuf. 29, 83–90 (2006)CrossRef
41.
go back to reference C. Hagelüken, Recycling of electronic scrap at Umicore’s integrated metals smelter and refinery. Proc. EMC 59, 152–161 (2005) C. Hagelüken, Recycling of electronic scrap at Umicore’s integrated metals smelter and refinery. Proc. EMC 59, 152–161 (2005)
42.
go back to reference A. Khaliq, M.A. Rhamdhani, G. Brooks, S. Masood, Metal extraction processes for electronic waste and existing industrial routes: a review and Australian perspective. Resources 3, 152–179 (2014)CrossRef A. Khaliq, M.A. Rhamdhani, G. Brooks, S. Masood, Metal extraction processes for electronic waste and existing industrial routes: a review and Australian perspective. Resources 3, 152–179 (2014)CrossRef
Metadata
Title
Valuable Metals and Energy Recovery from Electronic Waste Streams
Authors
Fiseha Tesfaye
Daniel Lindberg
Joseph Hamuyuni
Copyright Year
2017
DOI
https://doi.org/10.1007/978-3-319-52192-3_11