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The International Journal of Life Cycle Assessment

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13.03.2017 | LCA OF WASTE MANAGEMENT SYSTEMS

A study on the environmental aspects of WEEE plastic recycling in a Brazilian company

verfasst von: Juliana Mendes Campolina, Carolina São Leandro Sigrist, Jane Maria Faulstich de Paiva, Andréa Oliveira Nunes, Virgínia Aparecida da Silva Moris

Erschienen in: The International Journal of Life Cycle Assessment | Ausgabe 12/2017

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Abstract

Purpose

The high consumption of electrical and electronic equipment motivated by the rapid technological advances seen over the years has lead to an increase in the generation of waste electrical and electronic equipment (WEEE). Such residues contain various dangerous substances and therefore deserve special attention. To that end, the Brazilian Policy on Solid Waste has provided guidelines on integrated and solid waste management, such as consumer electronics, aiming at their appropriate disposal and treatment through reverse logistics. In this context, the present work focuses on studying the recycling of some WEEE plastics.

Methods

This study was conducted using the methodological framework presented in the International Standard ISO 14040:2006 and aimed to determine the life cycle inventory (LCI) of a WEEE plastic recycling process in a company in Brazil. Having collected the data, it was possible to identify and quantify the environmental aspects caused by the recycling process of major plastics (acrylonitrile-butadiene-styrene (ABS) and high impact polystyrene (HIPS). The study was conducted in the only company in Brazil that operates WEEE plastic recycling in large scale.

Results and discussion

Some of the environmental aspects caused during the recycling process of the plastics under study were identified and quantified. As a result, besides presenting the inventory, it was also possible to determine a reduction in the consumption of energy and in CO₂ emissions. When compared to the production of virgin ABS and HIPS, the recycling processes for such plastics showed a reduction in energy consumption by approximately 90% for both plastics and a reduction in CO₂ emissions by approximately 84% for HIPS and 87% for ABS. The plastics recycled by the company retain over 90% of their virgin mechanical properties.

Conclusions

The study shows that recycling is highly relevant and that components present in WEEE received appropriate destination and treatment. Recycling avoids environmental impacts as it prevents WEEE from being disposed of in landfills and as the pellets of recycled plastics can re-enter the supply chain as raw materials. Considering the legislation in Brazil, the stage of collection/transport/treatment of WEEE conducted by the company under study presents strong indications of contributions to the environment, society, and economy of the country.

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ABDI (2013). Logística Reversa de Equipamentos Eletroeletrônicos: Análise de Viabilidade Técnica e Econômica, 179

ABIPLAST (2015). – Associação Brasileira da Indústria do Plástico – Perfil 2015. http://www.abiplast.org.br/site/publicacoes/perfil-2015. Accessed November 2016

Andraw ASG, Andersen O (2010) Life cycle assessments of consumer electronics—are they consistent? Int J Life Cycle Assess 15:857–836

Araújo MG, Magrini A, Mahlerb FC, Bilitewskic B (2012) A model for estimation of potential generation of waste electrical and electronic equipment in Brazil. Waste Manag 32:335–342CrossRef

Barba-Gutiérrez Y, Andenso-Díaz B, Hopp M (2008) An analysis of some environmental consequences of European electrical and electronic waste regulation.Y. Resources, conservation and recycling, Amsterdam 52:481–495CrossRef

Biganzoli L, Falbo A, Forte F, Grosso M, Rigamonti L (2015) Mass balance and life cycle assessment of the waste electrical and eletronic equipment system implemented in Lombardia region (Italy). Sci Total Environ 524-525:361–375CrossRef

Bigum M, Brogaard L, Christensen TH (2012) Metal recovery from high-grade WEEE: a life cycle assessment. J Harzad Mater 207-208:8–14CrossRef

Brasil (2010) Law no 12,305, from 2nd August of 2010. Institui a Política Nacional de Resíduos Sólidos. http://www.planalto.gov.br/ccivil_03/_ato2007-2010/2010/lei/l12305.htm. Accessed March 2014

Brasil (2013) Edital 01/2013 de chamamento de acordos setoriais para a logística reversa de resíduos de equipamentos eletroeletrônicos e seus componentes. http://www.abras.com.br/pdf/editaleletroeletronicos.pdf. Accessed March 2014

Brasil (2014) República federativa. Inventário Nacional de Emissões Atmosféricas por Veículos Automotores Rodoviários 2013: Ano-Base 2012. 115

Brasil (2015) Fatores de emissão de CO2 para utilizações que necessitam do fator médio de emissão do Sistema Interligado Nacional do Brasil. Ministério da Ciência e Tecnologia. http://www.mct.gov.br/index.php/content/view/321144.html#ancora. Accessed March 2015

Cucchiela F, D’Adamo I, Koh SCL, Rosa P (2015) Recycling of WEEEs: an economic assessment of present and future e-waste streams. Renew Sust Energ Rev 51:263–272CrossRef

Cui J, Forssberg E (2003) Mechanical recycling of waste electric and electronic equipment: a review. J Hazard Mater B99:243–263CrossRef

MA Curran (2012) Life cycle assessment handbook: a guide for environmentally sustainable products. Kindle Edition

Dodbiba G, Sadaki J, Okaya K, Shibayama A, Fujita T (2005) The use of air tabling and triboelectric separation for separating a mixture of three plastics. Miner Eng 18:1350–1360CrossRef

European Union (2003a) European Parliament, Council of the European Union. Directive 2002/95/EC of the European Parliament and of the Council of 27 January 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equipment. Official Journal [of] the European Union. http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2003:037:0019:0023:en:pdf. Accessed March 2014

European Union (2003b) European Parliament, Council of the European Union. Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment. Official Journal of the European Union, L. 037. p 19–23. http://eurlex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2003:037:0024:0038:en:PDF. Accessed March 2014

Goosey M (2004) End-of-life electronics legislation—an industry perspective. Circuit World 30(2):41–45CrossRef

Hischier R, Wäger P, Gauglhofer J (2005) Does WEEE recycling make sense from an environmental perspective? The environmental impacts of the Swiss take-back and recycling systems for waste electrical and electronic equipment (WEEE). Environ Impact Asses 25:525–539CrossRef

Horner RE, Gertsakis JA (2006) Literature review on the environmental and health impacts of Waste electrical and electronic equipment. Report prepared for the Ministry for the Environment, Government of New Zealand. p 39

Intergovernmental Panel of Climate Change (2006) IPCC guidelines for national greenhouse gas inventories. http://www.ipcc-nggip.iges.or.jp/public/2006gl/. Accessed October 2014

ISO (2006) Environmental management—life cycle assessment—principles and frame-work. European Standard EN ISO 14040 International Standardization Organization (ISO), Geneva (Switzerland)

Jang YC (2010) Waste electrical and electronic equipment (WEEE) management in Korea: generation, collection, and recycling systems. J Mater Cycles Waste Manag 12:283–294CrossRef

Jonkers N, Krip H, Ewijk H, Leonards PEG (2016) Life cycle assessment of flame retardants in an electronics application. Int J Life Cycle Assess 21:146–161CrossRef

Kilic HS, Cebeci U, Ayhan MB (2015) Reverse logistics system design for the waste of electrical and electronic equipment (WEEE) in Turkey. Resour Conserv Recy 95:120–132CrossRef

Makenji K, Savage M (2012) Mechanical methods of recycling plastics from WEEE. In: Goodship V, Stevels A (eds) Waste electrical and electronic equipment (WEEE) handbook. Wood Head Publishing Limited, Cambridge, pp 212–238CrossRef

Maris E, Botané P, Wavrer P, Froelich D (2015) Characterizing plastics originating from WEEE: a case study in France. Min Eng 76:28–37CrossRef

Menikpura SNM, Santo A, Hotta Y (2014) Assessing the climate co-benefits from waste electrical and electronic equipment (WEEE) recycling in Japan. J Clean Prod 74:183–190CrossRef

Navazo JMV, Méndez GV, Peiró LT (2014) Material flow analysis and energy requirements of mobile phone material recovery process. Int Life Cycle Assess 19:567–579CrossRef

Nnorom IC, Osibanjo O (2009) Toxicity characterization of waste mobile phone plastics. J Hazard Mater 161:183–188CrossRef

Oliveira MCBR (2012) Gestão de Resíduos Plásticos Pós-Consumo: Perspectivas para a Reciclagem no Brasil. Dissertação de Mestrado apresentada ao Programa de Pós-Graduação em Planejamento Energético. Universidade Federal do Rio de Janeiro, Rio de Janeiro

Ongondo FO, Williams ID, Cherrett TJ (2011) How are WEEE doing? A global review of the management of electrical and electronic wastes. Waste Manag 31:714–730CrossRef

Plastics Europe (2005). Eco-profiles of the European plastics industry: acrylonitrile-butadiene-styrene copolymer (ABS). 14 pp

Plastics Europe (2012) Eco-profiles and environmental product declarations of the European plastics manufactures: general–purpose polystyrene (GPPS) and high-impact polystyrene (HIPS). 35 pp

Plastivida (2011) Monitoramento dos Índices de Reciclagem Mecânica de Plástico no Brasil (IRmP). Instituto Sócio-Ambiental dos Plásticos. http://www.plastivida.org.br/images/temas/Apresentacao_IRMP2011.pdf. Accessed in November 2016

Rodrigues AC (2007) Impactos Socioambientais dos Resíduos de Equipamentos Elétricos e Eletrônicos: estudo da cadeia pós-consumo no Brasil. Dissertation. UNIMEP - Brazil

Rogers DS, Tibben-Lembke RS (1998) Going backwards: reverse logistics trends and practices. Reno: University of Nevada. 283 pp

Sigrist CSL, Fonseca LFB, Paiva JMF, Mendes JV, Moris VAS (2015) Desenvolvimento de Ponto de Coleta de Resíduos Eletroeletrônicos. Revista Eletrônica em Gestão, Educação e Tecnologia Ambiental 19:1423–1438

Tanskanen P (2013) Management and recycling of electronic waste. Acta Mater, Finlândia 61:1001–1011CrossRef

Taurino R, Pozzi P, Zanasi T (2010) Facile characterization of polymer fractions from waste electrical and electronic equipment (WEEE) for mechanical recycling. Waste Manag 30:2601–2607CrossRef

Tsydenova A, Bengtsson M (2011) Chemical hazards associated with treatment of waste electrical and electronic equipment. Wasten 3:45–58

Vilaplana F, Karlsson S (2008) Quality concepts for the improved use of recycled polymeric materials: a review. Macromol Mater Eng 293:274–297CrossRef

Wager PA, Hischier R, Eugster M (2011) Environmental impacts of the Swiss collection and recovery systems for waste electrical and electronic equipment (WEEE): a follow-up. Sci Total Environ 409:1746–1756CrossRef

Wager PA, Hischier R (2015) Life cycle assessment of post-consumer plastics production from waste electrical and electronic equipment (WEEE) treatment residues in a Central European plastics recycling plant. Sci Total Environ 529:158–167CrossRef

Widmer R, Krapf HO, Khetriwal DS, Schnellmann M, Boni H (2005) Global perspectives on e-waste. Euro Env Imp Assess 25:436–458CrossRef

Yla-Mella J, Poikela K, Lehtinen U, Keiski RL, Pongráczet E (2014) Implementation of waste electrical and electronic equipment directive in Finland: evaluation of the collection network and challenges of the effective WEEE management. Resour Conserv Recy 86:38–46CrossRef

Yu MH (2005) Environmental toxicology: biological and health effects of pollutants. CRC Press, Boca Raton, p 366

Titel: A study on the environmental aspects of WEEE plastic recycling in a Brazilian company
verfasst von: Juliana Mendes Campolina
Carolina São Leandro Sigrist
Jane Maria Faulstich de Paiva
Andréa Oliveira Nunes
Virgínia Aparecida da Silva Moris
Publikationsdatum: 13.03.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: The International Journal of Life Cycle Assessment / Ausgabe 12/2017
Print ISSN: 0948-3349
Elektronische ISSN: 1614-7502
DOI: https://doi.org/10.1007/s11367-017-1282-2

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Abstract

Purpose

Methods

Results and discussion

Conclusions

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