Technical solutions to improve global sustainable management of waste electrical and electronic equipment (WEEE) in the EU and China

被引：29

作者：

Long E. ^{[1
]}

Kokke S. ^{[1
]}

Lundie D. ^{[1
]}

Shaw N. ^{[1
]}

Ijomah W. ^{[1
]}

Kao C.-C. ^{[1
]}

机构：

[1] Design, Manufacture and Engineering Management (DMEM), University of Strathclyde, 75 Montrose Street, Glasgow

来源：

Journal of Remanufacturing | / 6卷 / 1期

关键词：

China; Design for disassembly; EoL treatment; EU; Mobile phones; WEEE policy;

D O I：

10.1186/s13243-015-0023-6

中图分类号：

学科分类号：

摘要：

With the amount of Waste Electrical and Electronic Equipment (WEEE) being generated every year and increasing at an accelerating rate, the management of electronic waste (e-waste) has become an important global issue. This article contains a literature survey and a practical study of five mobile phones. In the literature survey WEEE management approaches in the EU and China were evaluated to identify differences and commonalities in approach as well as the identification of the current best practices. Practical End-of-Life (EoL) treatment processes, including remanufacturing, reconditioning, repairing, recycling, repurposing, reusing and disposal of e-waste were all investigated and studied in context of mobile phones. In the phone disassembly exercise the component material, weight, joining method, possibility of re-attachment and damage of disassembly were identified and noted down for every removed component. This disassembly gave insight in how the WEEE management in the EU could be adapted to improve the amount of component recovery. A final suggestion is to implement an EU objective open-access component database where original equipment manufacturer (OEM) component data and updated component performance information can be found. This would improve the quality and identification of components and hence aid component recovery. © 2016, Long et al.

引用

共 48 条

[31]

Ijomah W.L., The application of remanufacturing in sustainable manufacture, Proceedings of the Institute of Civil Engineers (ICE) - Waste and Resource Management, 163, pp. 157-163, (2010)

[32]

Ijomah W.L., A model-based definition of the generic remanufacturing business process”, PhD Dissertation, (2002)

[33]

Ijomah W.L., McMahon C.A., Hammond G.P., Newman S.T., Development of design for remanufacturing guidelines to support sustainable manufacturing, Journal of Robotics and Computer-Integrated Manufacturing, 23, pp. 712-719, (2007)

[34]

Ijomah W.L., McMahon C.A., Hammond G.P., Newman S.T., Development of robust design-for-remanufacturing guidelines to further the aims of sustainable development, Int J Prod Res, 45, 18, pp. 4513-4536, (2007)

[35]

Chi X., Streicher-Porte M., Wang M.Y., Reuter M.A., Informal electronic waste recycling: A sector review with special focus on China, Waste Manag, 31, (2011)

[36]

Chung S., Zhang C., An evaluation of legislative measures on electrical and electronic waste in the People’s Republic of China, Waste Manag, 31, pp. 2638-2646, (2011)

[37]

Spicer A.J., Johnson M.R., Third-party demanufacturing as a solution for extended producer responsibility, J Clean Prod, 12, (2004)

[38]

Lifset R., Atasu A., Tojo N., Extended Producer Responsibility: National, International, and Practical Perspectives, J Ind Ecol, 17, (2013)

[39]

Mayers C.K., Strategic, Financial, and Design Implications of Extended Producer Responsibility in Europe: A Producer Case Study, J Ind Ecol, 11, (2007)

[40]

Huang K., Guo J., Xu Z., Recycling of waste printed circuit boards: A review of current technologies and treatment status in China, J Hazard Mater, 164, (2009)

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