jepr

İktisat Politikası Araştırmaları Dergisi

2148-3876

Istanbul University

10.26650/JEPR1584970

Policy of Treasury Macroeconomics (Other)

Maliye Politikası Makro İktisat (Diğer)

A Comparative Analysis of E-Waste Management Systems

https://orcid.org/0000-0002-7273-333X

Pehlivan

Mikail

TRAKYA UNIVERSITY

https://orcid.org/0000-0003-2394-7232

Akkaya

Şahin

ISTANBUL UNIVERSITY

02 19 2026

13 1 19 56 11 13 2024 10 02 2025

2014

Journal of Economic Policy Researches

Material resources are an important source of income and employment, forming the physical basis of the economy. Their value varies across countries regarding their physical and chemical characteristics, abundance, and rarity. Economic growth means increased demand for raw materials, energy, and additional natural resources. Therefore, the use of raw materials and the associated production and consumption processes have environmental, economic, and social impacts both within countries and across national boundaries. If the product life cycle is not appropriately managed, there will be an increase in the quantities that end up as waste. Indeed, today, countries are facing an increasing problem that closely concerns both the economy and the environment. This problem involves waste electrical and electronic equipment. In today’s economic landscape, e-waste is the fastest-growing type of hazardous solid waste globally. Tackling this issue necessitates international collaboration, economic incentives that safeguard labour, and management strategies that reduce adverse effects on resources, the environment, and public health. Accordingly, the main goal of this study is to investigate e-waste management practices across selected countries (Australia, Brazil, China, Germany, Ghana, India, Japan, South Korea, Switzerland, Türkiye, and the USA) and formulate policy recommendations.

E-waste sustainable production sustainable consumption circular economy eco-industrial park

Adanu, S., Gbedemah, S., & Attah, M. (2020). Challenges of adopting sustainable technologies in e-waste management at Agbogbloshie, Ghana. Heliyon, 6(8), 1-7. google scholar

Ahirwar, R., & Tripathi, A. (2021). E-waste management: A review of recycling process, environmental and occupational health hazards, and potential solutions. Environmental Nanotechnology, Monitoring & Management, 15, 1-15. google scholar

Ahluwalia, P., & Nema, A. (2007). A life cycle based multi-objective optimization model for the management of computer waste. Resources, Conservation and Recycling, 51, 792-826. google scholar

Aizawa, H., Yoshida, H., & Sakai, S. (2008). Current results and future perspectives for Japanese recycling of home electrical appliances. Resources, Conservation and Recycling, 52(12), 1399-1410. google scholar

Akyüz, A. Ö., & Kumaş, K. (2022). Electrical and electronic wastes in the world and Türkiye: Policies and practices in Türkiye and some recommendations. International Journal of Energy Applications and Technologies, 9(3), 71–80. google scholar

Albuquerque, C. A., Mello, C. H. P., Gomes, J. H. F., dos Santos, V. C., & Zara, J. V. (2020). E-waste in the world today: An overview of problems and a proposal for improvement in Brazil. Environmental Quality Management, 29(3), 63–72. google scholar

Althaf, S., Babbitt, C., & Chen, R. (2021). The evolution of consumer electronic waste in the United States. Journal of Industrial Ecology, 25(3), 693-706. google scholar

Amoyaw-Osei, Y., Agyekum, O. O., Pwamang, J. A., Mueller, E., Fasko, R., & Schluep, M. (2011). Ghana e-waste country assessment. SBC e-Waste Africa Project, Swiss Federal Laboratories for Materials Science and Technology (Empa), & Ghana Environmental Protection Agency (EPA). google scholar

Amuzu, D. (2018). Environmental injustice of informal e-waste recycling in Agbogbloshie-Accra: urban political ecology perspective. Local Environment, 23(6), 603-618. google scholar

An, D., Yang, Y., Chai, X., Xi, B., Dong, L., & Ren, J. (2015). Mitigating pollution of hazardous materials from WEEE of China: Portfolio selection for a sustainable future based on multi-criteria decision making. Resources, Conservation and Recycling, 105, 198-210. google scholar

Andarani, P., & Goto, N. (2014). Potential e-waste generated from households in Indonesia using material flow analysis. Journal of Material Cycles and Waste Management, 16, 306-320. google scholar

Andeobu, L., Wibowo, S., & Grandhi, S. (2021). An assessment of e-waste generation and environmental management of selected countries in Africa, Europe and North America: A systematic review. Science of The Total Environment, 792, 1-15. google scholar

Andiç, E., Yurt, Ö., & Baltacıoğlu, T. (2012). Green supply chains: Efforts and potential applications for the Turkish market. Resources, Conservation and Recycling, 58, 50- 68. google scholar

Andrade, D. F., Romanelli, J. P., & Pereira-Filho, E. R. (2019). Past and emerging topics related to electronic waste management: Top countries, trends, and perspectives. Environmental Science and Pollution Research, 26(17), 17135–17151. google scholar

Andræ, A., Andersson, D., & Liu, J. (2005). Significance of intermediate production processes in life cycle assessment of electronic products assessed using a generic compact model. Journal of Cleaner Production , 1269-1279. google scholar

Aras, N., Korugan, A., Büyüközkan, G., Şerifoğlu, F., Erol, I., & Velioğlu, M. (2015). Locating recycling facilities for IT-based electronic waste in Turkey. Journal of Cleaner Production, 105, 324-336. google scholar

Araujo, J., Pintão, R., & Watanabe Rosa, C. (2011, October). Sustainable value generation through collaborative symbiotic networks planning. 12th Working Conference on Virtual Enterprises (PRO-VE) (pp. 564–571). São Paulo, Brazil. google scholar

Araújo, M., Magrini, A., Mahler, C., & Bilitewski, B. (2012). A model for estimation of potential generation of waste electrical and electronic equipment in Brazil. Waste Management, 32, 335-342. google scholar

Arya, S., & Kumar, S. (2020). E-waste in India at a glance: Current trends, regulations, challenges and management strategies. Journal of Cleaner Production, 271(122707), 1-20. google scholar

Asante, K., Pwamang, J., Amoyaw-Osei, Y., & Ampofo, J. (2016). E-waste interventions in Ghana. Reviews on Environmental Health, 31(1), 145-148. google scholar

Ashton, W., Chopra, S., & Kashyap, R. (2017). Life and Death of Industrial Ecosystems. Sustainability, 9(605), 1-15. google scholar

Atasu, A., & Van Wassenhove, L. (2012). An operations perspective on product take‐back legislation for e‐waste: Theory, practice, and research needs. Production and Operations Management, 21 (3), 407-422. google scholar

Awasthi, A. K., Wang, M., Wang, Z., Awasthi, M. K., & Li, J. (2018). E-waste management in India: A mini-review. Waste Management & Research, 36(5), 408–414. google scholar

Awasthi, A. K., & Li, J. (2017). Management of electrical and electronic waste: A comparative evaluation of China and India. Renewable and Sustainable Energy Reviews, 76, 434–447. google scholar

Ayçin, E., & Kayapinar, S. (2021). Towards the circular economy: Analysis of barriers to implementation of Turkey’s zero waste management using the fuzzy DEMATEL method. Waste Management & Research, 39(8), 1078-1089. google scholar

Azevedo, L., Silva Araújo, F., Lagarinhos, C., Tenório, J., & Espinosa, D. (2017). E-waste management and sustainability: a case study in Brazil. Environmental Science and Pollution Research, 24(32), 25221-25232. google scholar

Bahers, J., & Kim, J. (2018). Regional approach of waste electrical and electronic equipment (WEEE) management in France. Resources, Conservation & Recycling, 129, 45-55. google scholar

Bain, A., Shenoy, M., Ashton, W., & Chertow, M. (2010). Industrial symbiosis and waste recovery in an Indian industrial area. Resources, Conservation and Recycling, 1278-1287. google scholar

Bakri, S., Surif, S., & Ramasamy, R. (2008). A Case study of life cycle assessment (LCA) on ballast for fluorescent lamp in Malaysia. IEEE International Symposium on Electronics and the Environment. Bangi: IEEE. 1-4 google scholar

Banar, M., Cokaygil, Z., & Ozkan, A. (2009). Life cycle assessment of solid waste management options for Eskisehir, Turkey. Waste Management, 29(1), 54–62. google scholar

Banar, M., Tulger, G., & Özkan, A. (2014). Plant site selection for recycling plants of waste electrical and electronic equipment in Turkey by using multi-criteria decision making methods. Environmental Engineering and Management Journal, 13(1), 163–172. google scholar

Barapatre, S., & Rastogi, M. (2021). e-Waste management: A transition towards a circular economy. In C. Baskar et al. (Eds.), Handbook of Solid Waste Management (pp. 1–23). Springer Nature Singapore. google scholar

Barba-Gutierrez, Y., Adenso-Diaz, B., & Hopp, M. (2008). An analysis of some environmental consequences of European electrical and electronic waste regulation. Resources, Conservation and Recycling, 52, 481-495. google scholar

Beers, D., Corder, G., Bossilkov, A., & Berkel, R. (2007). Industrial symbiosis in the Australian minerals industry: The cases of kwinana and gladstone. Journal of Industrial Ecology, 55-72. google scholar

Behera, S., Kim, J., Lee, S., Suh, S., & Park, H. (2012). Evolution of ‘designed’ industrial symbiosis networks in the Ulsan Eco-industrial Park: ‘research and development into business’ as the enabling framework. Journal of Cleaner Production, 103-112. google scholar

Bereketli, I., Genevois, M., Albayrak, Y., & Ozyol, M. (2011). WEEE treatment strategies’ evaluation using fuzzy LINMAP method. Expert Systems with Applications, 38, 71-79. google scholar

Berkel, R., Fujita, T., Hashimoto, S., & Fujii, M. (2009). Quantitative assessment of urban and ındustrial symbiosis in Kawasaki, Japan. Environmental Science & Technology, 43, 1271-1281. google scholar

Bhaskar, K., & Turaga, R. M. R. (2017). India’s E-waste rules and their impact on e-waste management practices: A case study. Journal of Industrial Ecology, 22(4), 930–942. google scholar

Bi, X., Thomas, G., Jones, K., Qu, W., Sheng, G., Martin, F., & Fu, J. (2007). Exposure of electronics dismantling workers to polybrominated diphenyl ethers, polychlorinated biphenyls, and organochlorine pesticides in South China. Environmental Science & Technology, 41, 5647-5653. google scholar

Binder, C. R., Quirici, R., Domnitcheva, S., & Stäubli, B. (2008). Smart labels for waste and resource management: An integrated assessment. Journal of Industrial Ecology, 12(2), 207–228. google scholar

Biedenkopf, K. (2020). E-waste policies in the United States: minimalistic federal action and fragmented subnational activities. M. Prasad, M. Vithanage, & A. Borthakur, Handbook of electronic waste management: international best practices and case studies. Butterworth-Heinemann. 577-588. google scholar

Billinghurst, B. (2005). E-waste: a comparative analysis of current and contemplated management efforts by the European Union and the United States. Colorado Journal of International Environmental Law and Policy, 16, 399-428. google scholar

Bimir, M. N. (2020). Revisiting e-waste management practices in selected African countries. Journal of the Air & Waste Management Association, 70(7), 659–669. google scholar

Bisschop, L. (2012). Is it all going to waste? Illegal transports of e-waste in a European trade hub. Crime, Law and Social Change, 58, 221-249. google scholar

Bo, B., & Yamamoto, K. (2010). Characteristics of e-waste recycling systems in Japan and China. International Journal of Environmental and Ecological Engineering, 4(2), 89-95. google scholar

Borthakur, A., & Govind, A. (2017). Emerging trends in consumers E-waste disposal behavior and awareness: a worldwide overview with special focus on India. Resources, Conservation and Recycling, 117, 102-113. google scholar

Borthakur, A., & Govind, M. (2017a). How well are we managing E-waste in India: Evidences from the city of Bangalore. Energy, Ecology and Environment, 2(4), 225–235. google scholar

Borthakur, A., & Govind, M. (2018). Public understandings of E-waste and its disposal in urban India: From a review towards a conceptual framework. Journal of Cleaner Production, 172, 1053–1066. google scholar

Börner, L., & Hegger, D. (2018). Toward design principles for sound e-waste governance: A research approach illustrated with the case of the Netherlands. Resources, Conservation & Recycling, 134, 271-281. google scholar

Branson, R. (2016). Re-constructing Kalundborg: the reality of bilateral symbiosis and other insights. Journal of Cleaner Production, 4344-4352. google scholar

Breivik, K., Armitage, J., Wania, F., & Jones, K. (2014). Tracking the global generation and exports of e‑waste. Do existing estimates add up? Environmental Science & Technology, 48, 8735−8743. google scholar

Brigden, K., Labunska, I., Santillo, D., & Allsopp, M. (2005). Recycling of electronic waste in China and India. Amsterdam: Greenpeace International. google scholar

Cao, J., Lu, B., Chen, Y., Zhang, X., Zhai, G., Zhou, G., . . . Schnoor, J. (2016). Extended producer responsibility system in China improves e-waste recycling: Government policies, enterprise, and public awareness. Renewable and Sustainable Energy Reviews, 62, 882-894. google scholar

Chancerel, P., Meskers, C., Hagelüken, C., & Rotter, V. (2009). Assessment of precious metal flows during preprocessing of waste electrical and electronic equipment. Journal of Industrial Ecology, 13(5), 791-810. google scholar

Chaudhary, K., & Vrat, P. (2017). Optimal location of precious metal extraction facility (PMEF) for E-waste recycling units in National Capital Region (NCR) of India. Opsearch, 54, 441-459. google scholar

Chaudhary, K., & Vrat, P. (2018). Case study analysis of e-waste management systems in Germany, Switzerland, Japan and India: A RADAR chart approach. Benchmarking: An International Journal, 25(9), 3519–3540. google scholar

Chen, D., Faibil, D., & Agyemang, M. (2020). Evaluating critical barriers and pathways to implementation of e-waste formalization management systems in Ghana: a hybrid BWM and fuzzy TOPSIS approach. Environmental Science and Pollution Research, 27, 44561-44584. google scholar

Chen, M., Ogunseitan, O. A., Duan, H., Zeng, X., & Li, J. (2018). China e-waste management: Struggling for future success. Resources, Conservation & Recycling, 139, 48–49. google scholar

Chertow, M. (2000). Industrial symbiosis: Literature and taxonomy. Annual Review of Environment and Resources, 25, 313-337. google scholar

Chertow, M. (2007). “Uncovering” industrial symbiosis. Journal of Industrial Ecology, 11(1), 11-30. google scholar

Chertow, M., & Ehrenfeld, J. (2012). Organizing self-organizing systems: toward a theory of industrial symbiosis. Journal of Industrial Ecology, 13-27. google scholar

Chiang, S., Wei, C., Chiang, T., & Chen, W. (2011). How can electronics industries become green manufacturers in Taiwan and Japan. Clean Technologies and Environmental Policy, 13, 37-47. google scholar

Choi, B., Shin, H., Lee, S., & Hur, T. (2006). Life cycle assessment of a personal computer and its effective recycling rate. International Journal of Life Cycle Assessment, 11(2), 122-128. google scholar

Chung, S., & Murakami-Suzuki, R. (2008). A Comparative study of e-waste recycling systems in Japan, South Korea and Taiwan from the EPR perspective: implications for developing countries. M. Kojima, Promoting 3Rs in Developing Countries: Lessons from the Japanese Experience. Chiba.: Japan External Trade Organization. 125-145. google scholar

Chung, S., Lau, K., & Zhang, C. (2011). Generation of and control measures for, e-waste in Hong Kong. Waste Management, 31 , 544-554. google scholar

Cobbing, M. (2008). Toxic Tech: Not in Our Backyard. Uncovering the Hidden Flows of E-Waste. Amsterdam: Greenpeace International. google scholar

Coglianese, C., & Nash, J. (2001). Environmental management systems and the new policy agenda. C. Coglianese, & J. Nash, Regulating from the Inside: Can Environmental Management Systems Achieve Policy Goals?. Washington: Resources for the Future. 1-25. google scholar

Cordova-Pizarro, D., Aguilar-Barajas, I., Romero, D., & Rodriguez, C. (2019). Circular economy in the electronic products sector: material flow analysis and economic impact of cellphone e-waste in Mexico. Sustainability, 11(1361), 1-18. google scholar

Cucchiella, F., D’Adamo, I., Koh, S., & Rosa, P. (2015). Recycling of WEEEs: An economic assessment of present and future e-waste streams. Renewable and Sustainable Energy Reviews, 51, 263-272. google scholar

Cui, J., & Zhang, L. (2008). Metallurgical recovery of metals from electronic waste: a review. Journal of Hazardous Materials, 158, 228-256. google scholar

ÇŞİB. (2020). Atık istatistikleri bülteni. Çevre Şehirclik ve İklim Değişikliği Bakanlığı. google scholar

ÇŞİB. (2022).Çevresel izin ve lisans istatistikleri bülteni (2021). Çevre Şehircilik ve İklim Değişikliği Bakanlığı. google scholar

Daum, K., Stoler, J., & Grant, R. (2017). Toward a more sustainable trajectory for e-waste policy: a review of a decade of e-waste research in Accra, Ghana. International Journal of Environmental Research and Public Health, 14(135), 1-18. google scholar

Davis, G., & Herat, S. (2008). Electronic waste: the local government perspective in Queensland, Australia. Resources, Conservation and Recycling, 52(7), 1031–1039. google scholar

Davis, G., & Herat, S. (2010). Opportunities and constraints for developing a sustainable e-waste management system at local government level in Australia. Waste Management & Research, 28, 705-713. google scholar

Davis, G., & Wolski, M. (2009). E-waste and the sustainable organisation: Griffith University’s approach to e-waste. International Journal of Sustainability in Higher Education, 10(1), 21–32. google scholar

Demajorovıc, J., Augusto, E., & Souza, M. (2016). Reverse logistics of e-waste in developing countries: challenges and prospects for the Brazilian model. Ambiente & Sociedade, 19, 117-136. google scholar

Dempsey, M., & McIntyre, K. (2009). The role of collective versus individual producer responsibility in e-waste management: key learnings from around the world. R. Hester, & R. Harrison, Electronic Waste Management, Cambridge: Royal Society of Chemistry, 212-235. google scholar

Deng, L., Babbitt, C., & Williams, E. (2011). Economic-balance hybrid LCA extended with uncertainty analysis: case study of a laptop computer. Journal of Cleaner Production, 19, 1198-1206. google scholar

Deubzer, O. (2011). E-waste management in Germany. United Nations University – Institute for Sustainability and Peace. google scholar

Dias, P., Palomero, J., Cenci, M., Scarazzato, T., & Bernardes, A. (2022). Electronic waste in Brazil: generation, collection, recycling and the covid pandemic. Cleaner Waste Systems, 3(100022), 1-13. google scholar

Dimitrakakis, E., Janz, A., Bilitewski, B., & Gidarakos, E. (2009). Small WEEE: determining recyclables and hazardous substances in plastics. Journal of Hazardous Materials, 161(2–3), 913–919. google scholar

Doan, L., Amer, Y., Lee, S., & Phuc, P. (2019). Strategies for e-waste management: a literature review. International Journal of Energy and Environmental Engineering, 13 (3), 157-162. google scholar

Dollisson, C., Vasconi, C., & Baker, B. (2017). Review of the product stewardship act and national television and computer recycling scheme. Australia: Australia and New Zealand Recycling Platform Limited. google scholar

Domenech, T., Bleischwitz, R., Doranova, A., Panayotopoulos, D., & Roman, L. (2019). Mapping Industrial Symbiosis Development in Europe typologies of networks, characteristics, performance and contribution to the Circular Economy. Resources, Conservation & Recycling, 141, 76-98. google scholar

Duan, H., Eugster, M., Hischier, R., Streicher-Porte, M., & Li, J. (2009). Life cycle assessment study of a Chinese desktop personal computer. Science of the Total Environment, 1755-1764. google scholar

Dutta, D., & Goel, S. (2021). Understanding the gap between formal and informal e-waste recycling facilities in India. Waste Management, 125, 163–171. google scholar

Duygan, M., & Meylan, G. (2015). Strategic management of WEEE in Switzerland- combining material flow analysis with structural analysis. Resource, Conservation & Recycling, 103, 98-109. google scholar

Dwivedy, M., & Mittal, R. (2010). Estimation of future outflows of e-waste in India. Waste Management, 30, 483-491. google scholar

Dwivedy, M., & Mittal, R. K. (2010a). Future trends in computer waste generation in India. Waste Management, 30(11), 2265–2277. google scholar

Dwivedy, M., & Mittal, R. K. (2012). An investigation into e-waste flows in India. Journal of Cleaner Production, 37, 229–242. google scholar

Dwivedy, M., Suchde, P., & Mittal, R. K. (2015). Modeling and assessment of e-waste take-back strategies in India. Resources, Conservation and Recycling, 96, 11–18. google scholar

Dzah, C., Agyapong, J., Apprey, M., Agbevanu, K., & Kagbetor, P. (2022). Assessment of perceptions and practices of electronic waste management among commercial consumers in Ho, Ghana. Sustainable Environment, 8(1), 1-16. google scholar

Ehrenfeld, J., & Gertler, N. (1997). Industrial ecology in practice: the evolution of interdependence at Kalundborg. Journal of Industrial Ecology, 67-79. google scholar

Eilering, J., & Vermeulen, W. (2004). Eco-industrial parks: toward industrial symbiosis and utility sharing in practice. Progress in Industrial Ecology, 1, 245-270. google scholar

Elisha, H. (2010). Addressing the e-waste crisis: the need for comprehensive federal e-waste regulation within the united states. Chapman Law Review, 14(1), 195-237. google scholar

Erdoğan, M., Küçük, Y., & Kaya, İ. (2015). A hybrid fuzzy decision making procedure to select among outsourcing alternatives for waste of electrical and electronic equipment. International Journal of Modeling and Optimization, 5(1), 65-70. google scholar

Erol, İ., Velioğlu, M., Şerifoğlu, F., Büyüközkan, G., Aras, N., Çakar, N., & Korugan, A. (2010). Exploring reverse supply chain management practices in Turkey, Supply Chain Management: An International Journal, 15(1), 43-54. google scholar

EurActiv. (2009). EU starts screening raw materials ‘critical list’. EU - European Information on Sustainable Dev. [https://www.euractiv.com/section/sustainable-dev/news/eu-starts-screening-raw-materials-critical-list/](https://www.euractiv.com/section/sustainable-dev/news/eu-starts-screening-raw-materials-critical-list/) (Access date: 19.04.2023). google scholar

100

Eygen, E., Meester, S., Tran, H., & Dewulf, J. (2016). Resource savings by urban mining: The case of desktop and laptop computers in Belgium. Resources, Conservation and Recycling, 107, 53-64. google scholar

101

Ezroj, A. (2010). How the European Union's WEEE & RoHS Directives can help the United States develop a successful national e-waste strategy. Virginia Environmental Law Journal, 28(1), 45–78. google scholar

102

Faibil, D., Asante, R., Agyemang, M., Addaney, M., & Baah, C. (2023). Extended producer responsibility in developing economies: Assessment of promoting factors through retail electronic firms for sustainable e-waste management. Waste Management & Research, 41(1), 117-142. google scholar

103

Favot, M., Veit, R., & Massarutto, A. (2018). The ratio of EPR compliance fees on sales revenues of electrical and electronic equipment in Italy. A circular economy perspective. Resources, Conservation & Recycling, 135, 34-37. google scholar

104

Fayustov, A. (2020). E-Waste management in a global digital economy. Earth and Environmental Science, 459, 1-7. google scholar

105

Fernando, K. J. S., & Rupasinghe, T. D. (2016). A conceptual framework for e-waste management through reverse logistics: A case study from Australia. International Journal of Operations and Logistics Management, 5(4), 190–211. google scholar

106

Fehm, S. (2011). From iPod to e-waste: building a successful framework for extended producer responsibility in the United States. Public Contract Law Journal, 41, 173-195. google scholar

107

Fishbein, B. (2002). Waste in the wireless world: the challenge of cell phones. New York: INFORM Inc. [https://p2infohouse.org/ref/19/18713.htm](https://p2infohouse.org/ref/19/18713.htm) (Access date: 14.02.2023). google scholar

108

Ford, P., Santos, E., Ferrã o, P., Margarido, F., Vliet, K., & Olivetti, E. (2016). Economics of end-of-life materials recovery: a study of small appliances and computer devices in Portugal. Environmental Science & Technology, 50, 4854−4862. google scholar

109

Ganguly, R. (2016). E-waste management in India – An overview. International Journal of Earth Sciences and Engineering, 9(2), 574–588. google scholar

110

Garlapati, V. K. (2016). E-waste in India and developed countries: Management, recycling, business and biotechnological initiatives. Renewable and Sustainable Energy Reviews, 54, 874–881. google scholar

111

Geng, Y., & Côté, R. (2002). Scavengers and decomposers in an eco-industrial park. The International Journal of Sustainable Development & World Ecology, 9(4), 333-340. google scholar

112

Glasbergen, P. (1998.). The question of environmental governance. P. Glasbergen, Co-Operative Environmental Governance: Public-Private Agreements as a Policy Strategy. Dordrecht: Kluwer. 1-18. google scholar

113

Golev, A., & Corder, G. (2017). Quantifying metal values in e-waste in Australia: The value chain perspective. Minerals Engineering, 107, 81-87. google scholar

114

Golev, A., Corder, G. D., & Rhamdhani, M. A. (2019). Estimating flows and metal recovery values of waste printed circuit boards in Australian e-waste. Minerals Engineering, 137, 171–176. google scholar

115

Golev, A., Schmeda-Lopez, D., Smart, S., Corder, G., & McFarland, E. (2016). Where next on e-waste in Australia? Waste Management, 58, 348-358. google scholar

116

Goosey, M. (2009). Introduction and Overview. R. Hester, & R. Harrison, Electronic waste management. Cambridge: RSC Publishing. 1-39. google scholar

117

Gottberg, A., Morris, J., Pollard, S., Mark-Herbert, C., & Cook, M. (2006). Producer responsibility, waste minimisation and the WEEE Directive: Case studies in eco-design from the European lighting sector. Science of the Total Environment, 359, 38- 56. google scholar

118

Grant, R., & Oteng-Ababio, M. (2012). Mapping the invisible and real “African” economy: Urban e-waste circuitry. Urban Geography, 33(1), 1–21. google scholar

119

Grant, R., & Oteng-Ababio, M. (2021). Formalising E-waste in Ghana: An emerging landscape of fragmentation and enduring barriers. Development Southern Africa, 38(1), 73-86. google scholar

120

Gregory, J., & Kirchain, R. (2007). A comparison of North American electronics recycling systems. Electronics & the Environment, Proceedings of the 2007 IEEE International Symposium on IEEE, 227-232. google scholar

121

Grigg, J. (2004). Environmental toxins; their impact on children’s health. Archives of disease in childhood, 89, 244-250. google scholar

122

Gu, Y., Wu , Y., Xu, M., Wang, H., & Zuo, T. (2017). To realise better extended producer responsibility: redesign of WEEE fund mode in China. Journal of Cleaner Production, 164, 347-356. google scholar

123

Guarnieri, P., Silva, L., & Vieira, B. (2020). How to assess reverse logistics of e-waste considering a multicriteria perspective? A model proposition. Logistics, 4(25), 1-29. google scholar

124

Guo, B., Geng, Y., Sterr, T., Dong, L., & Liu, Y. (2016). Evaluation of promoting industrial symbiosis in a chemical industrial park: A case of Midong. Journal of Cleaner Production, 995-1008. google scholar

125

Guo, X., & Yan, K. (2017). Estimation of obsolete cellular phones generation: A case study of China. Science of the Total Environment, 575, 321-329. google scholar

126

Guo, X., Zhang, Y., & Xu, K. (2016a). Metallurgical recovery of metals from waste electrical and electronic equipment (WEEE) in PRC. R. Izatt, Metal Sustainability: Global Challenges, Consequences, and Prospects. Oxford: Wiley. 151-168. google scholar

127

Gurauskiene, I., & Stasiskiene, Z. (2011). Application of material flow analysis to estimate the efficiency of e-waste management systems: the case of Lithuania. Waste Management & Research, 29(7), 763-777. google scholar

128

Habuer, Nakatani, J., & Moriguchi, Y. (2014). Time-series product and substance flow analyses of end-of-life electrical and electronic equipment in China. Waste Management, 34, 489-497. google scholar

129

Hagelüken, C. (2006). Improving metal returns and eco-efficiency in electronics recycling - A holistic approach for interface optimisation between. IEEE International Symposium on Electronics and the Environment. Scottsdale, AZ, USA. 218-223. google scholar

130

Hanselman, S., & Pegah, M. (2007). The wild wild waste: e-waste. Proceedings of the 35th annual ACM SIGUCCS fall conference, 157-162. google scholar

131

He, K., Li, L., & Ding, W. (2008). Research on recovery logistics network of waste electronic and electrical equipment in China. IEEE International Conference on Service Operations and Logistics, and Informatics (pp. 1797–1802). IEEE. google scholar

132

Heacock, M., Kelly, C. B., Anson, K., Birnbaum, L. S., Bergman, Å. L., Bruné, M.-N., . . . Suk, W. A. (2016). E-waste and harm to vulnerable populations: a growing global problem. Environmental Health Perspectives, 124(5), 550-555. google scholar

133

Heeres, R., Vermeulen, W., & Walle, F. (2004). Eco-industrial park initiatives in the USA and the Netherlands: first lessons. Journal of Cleaner Production, 12, 985-995. google scholar

134

Herat, S. (2021). E‑waste management in the Asia Pacific Region: review of issues, challenges and solutions. Nature Environment and Pollution Technology, 20(1), 45–53. google scholar

135

Hickle, G. (2014). An examination of governance within extended producer responsibility policy regimes in North America. Resources, Conservation and Recycling , 55-65. google scholar

136

Hischier, R., & Baudin, I. (2010). LCA study of a plasma television device. The International Journal of Life Cycle Assessment, 15, 428-438. google scholar

137

Hischier, R., Wäger, P., & Gauglhofer, J. (2005). Does WEEE recycling make sense from an environmental perspective? The environmental impacts of the Swiss takeback and recycling systems for waste electrical and electronic equipment (WEEE). Environmental Impact Assessment Review, 25(5), 525-539. google scholar

138

Hong, J., Shi, W., Wang, Y., Chen, W., & Li, X. (2015). Life cycle assessment of electronic waste treatment. Waste Management , 357-36. google scholar

139

Horne, R. E., & Gertsakis, J. (2006). A literature review on the environmental and health impacts of waste electrical and electronic equipment. Ministry for the Environment, Government of New Zealand. google scholar

140

Hotta, Y., Santo, A., & Tasaki, T. (2014). EPR-Based electronic home appliance recycling system under home appliance recycling act of Japan. Japan: Institute of Global Environmental Strategies. google scholar

141

Huisman, J., & Magalini, F. (2007). Where are WEEE now? Lessons from WEEE: will EPR work for the US? Proceedings of the 2007 IEEE International Symposium on Electronics and the Environment. USA: Orlando: IEEE. 149-154. google scholar

142

Huisman, J., Magalini, F., Kuehr, R., Maurer, C., Ogilvie, S., Poll, J., . . . Stevels, A. (2008). 2008 Review of Directive 2002/96 on Waste Electrical and Electronic Equipment. ENV.G.4/ETU/2006/0032. Bonn/Bilbao/Szentendre/Delft: United Nations University. google scholar

143

Huisman, J., Stevels, A., Baldé, K., Magalini, F., & Kuehr, R. (2019). The e-waste development cycle part I, introduction and country status. V. Goodship, A. Stevels, & J. Huisman, Waste Electrical and Electronic Equipment (WEEE) Handbook. Duxford: Elsevier. 17-56. google scholar

144

Huisman, J., Stevels, A., Marinelli, T., & Magalini, F. (2006). Where did WEEE go wrong in Europe? Practical and academic lessons for the US. Proceedings of the 2006 IEEE International Symposium on Electronics and the Environment. USA: Scottsdale: IEEE. 83-88. google scholar

145

Hula, A., Jalali, K., Hamza, K., Skerlos, S., & Satiou, K. (2003). Multi-criteria decision-making for optimization of product disassembly under multiple situations. Environmental Science & Technology, 37, 5303-5313. google scholar

146

Huo, X., Peng, L., Xu, X., Zheng, L., Qiu, B., Qi, Z., . . . Piao, Z. (2007). Elevated blood lead levels of children in Guiyu, an electronic waste recycling town in China. Environmental Health Perspectives, 115(7), 1113-1117. google scholar

147

Ilankoon, I., Ghorbani, Y., Chong, M., Herath, G., Moyo, T., & Petersen, J. (2018). E-waste in the international context - A review of trade flows, regulations, hazards, waste management strategies and technologies for value recovery. Waste Management, 82, 258-275. google scholar

148

Islam, M. T., & Huda, N. (2018). Reverse logistics and closed-loop supply chain of waste electrical and electronic equipment (WEEE)/e-waste: A comprehensive literature review. Resources, Conservation and Recycling, 137, 48–75. google scholar

149

Islam, M. T., & Huda, N. (2019). Material flow analysis (MFA) as a strategic tool in e-waste management: applications, trends and future directions. Journal of Environmental Management, 244, 344–361. google scholar

150

Islam, M. T., & Huda, N. (2020). Reshaping WEEE management in Australia: An investigation on the untapped WEEE products. Journal of Cleaner Production, 250(119496), 1-22. google scholar

151

Jacobsen, N. (2006). Industrial symbiosis in Kalundborg, Denmark: a quantitative assessment of economic and environmental aspects. Journal of Industrial Ecology, 239-255. google scholar

152

Jang, Y., & Kim, M. (2010). Management of used & end-of-life mobile phones in Korea: a review. Resources, Conservation and recycling, 55(1), 11-19. google scholar

153

Jeyaraj, P. (2021). Management of e-waste in India – Challenges and recommendations. World Journal of Advanced Research and Reviews, 11(2), 193–218. google scholar

154

Jody, B., Daniels, E., Duranceau, C., Pomykala, J., & Spangenberger, J. (2010). End-of-life vehicle recycling: state of the art of resource recovery from shredder residue. Oak Ridge: Argonne National Laboratory. google scholar

155

Kahhat, R., & Williams, E. (2012). Materials flow analysis of e-waste: Domestic flows and exports of used computers from the United States. Resources, Conservation and Recycling, 67, 67-74. google scholar

156

Kahhat, R., Kim, J., Xu, M., Allenby, B., Williams, E., & Zhang, P. (2008). Exploring e-waste management systems in the United States. Resources, conservation and recycling, 52(7), 955-964. google scholar

157

Kalmykova, Y., Patrício, J., Rosado, L., & EO, B. (2015). Out with the old, out with the new - The effect of transitions in TVs and monitors technology on consumption and WEEE generation in Sweden 1996-2014. Waste Management, 46, 511-522. google scholar

158

Kaur, H., & Goel, S. (2016). E-waste legislations in India—A critical review. Management and Labour Studies, 41(1), 63–69. google scholar

159

Kautto, P. (2006). New ınstruments - old practices? The implications of environmental management systems and extended producer responsibility for design for the environment. Business Strategy and the Environment, 377-388. google scholar

160

Kaya, İ. (2012). Evaluation of outsourcing alternatives under fuzzy environment for waste management. Resources, Conservation and Recycling, 60, 107- 118. google scholar

161

Kazancoglu, Y., Ozbiltekin, M., Ozen, Y., & Sagnak, M. (2020). A proposed sustainable and digital collection and classification center model to manage e-waste in emerging economies. Manage e-waste in emerging economies, 267-291. google scholar

162

Kellenberg, D. (2012). Trading wastes. Journal of Environmental Economics and Management, 64, 68-87. google scholar

163

Kiddee, P., Naidu, R., & Wong, M. H. (2013). Electronic waste management approaches: An overview. Waste Management, 33, 1237-1250. google scholar

164

Kim, H. (2007). Building an eco-industrial park as a public project in South Korea. The Stakeholders’ understanding of and involvement in the project. Sustainable Development, 357-369. google scholar

165

Kim, H., Jang, Y.-C., Hwang, Y., Ko, Y., & Yun, H. (2018). End-of-life batteries management and material flow analysis in South Korea. Frontiers of Environmental Science & Engineering, 12(3), 1-12. google scholar

166

Kim, J., Hwang, Y., & Park, K. (2009). An assessment of the recycling potential of materials based on environmental and economic factors; case study in South Korea. Journal of Cleaner Production, 17, 1264-1271. google scholar

167

Kim, J., Hwang, Y., Matthews, H., & Park, K. (2004). Methodology for recycling potential evaluation criterion of waste home appliances considering environmental and economic factor. International Symposium on Electronics and the Environment. IEEE. 68-73. google scholar

168

Kim, S., Hwang, T., & Overcash, M. (2001). Life cycle assessment study of color computer monitor. The International Journal of Life Cycle Assessment, 35-43. google scholar

169

Kollikkathara, N., Feng, H., & Stern, E. (2009). A purview of waste management evolution: Special emphasis on USA. Waste management, 29(2), 974-985. google scholar

170

Kunz, N., Mayers, K., & Van Wassenhove, L. (2018). Stakeholder views on extended producer responsibility and the circular economy. California Management Review, 60(3), 45-70. google scholar

171

Kuper, J., & Hojsik, M. (2008). Poisoning the poor: electronic waste in ghana. Amsterdam: Greenpeace. google scholar

172

Kwatra, S., Pandey, S., & Sharma, S. (2014). Understanding public knowledge and awareness on e-waste in an urban setting in India: A case study for Delhi. Management of Environmental Quality, 25(6), 752-765. google scholar

173

Lam, C., Lim, S., & Schoenung, J. (2013). Linking material flow analysis with environmental impact potential dynamic technology transition effects on projected e-waste in the United States. Journal of Industrial Ecology, 299-309. google scholar

174

Lambert, A., & Boons, F. (2002). Eco-industrial parks: stimulating sustainable development in mixed industrial parks. Technovation, 471-484. google scholar

175

Lebbie, T., Moyebi, O., Asante, K., Fobil, J., Brune-Drisse, M., Suk, W., . . . Carpenter, D. (2021). E-Waste in Africa: A serious threat to the health of children. International Journal of Environmental Research and Public Health, 1-25. google scholar

176

Leclerc, S. H., & Badami, M. G. (2020). Extended producer responsibility for E-waste management: Policy drivers and challenges. Journal of Cleaner Production, 251, 119657. google scholar

177

Lee, J., Song, H., & Yoo, J. (2007). Present status of the recycling of waste electrical and electronic equipment in Korea. Resources, Conservation and Recycling, 50, 380-397. google scholar

178

Lee, S., & Na, S. (2010). E-waste recycling systems and sound circulative economies in East Asia: A comparative analysis of systems in Japan, South Korea, China and Taiwan. Sustainability, 2(6), 1632-1644. google scholar

179

Leung, A., Cai, Z., & Wong, M. (2006). Environmental contamination from electronic waste recycling at Guiyu, southeast China. Journal of Material Cycles and Waste Management, 8, 21-33. google scholar

180

Leung, A., Duzgoren-Aydin, N., Cheung, K., & Wong, M. (2008). Heavy metals concentrations of surface dust from e-waste recycling and its human health ımplications in southeast China. Environmental Science & Technology, 42, 2674-2680. google scholar

181

Li, J., Pan, S., Kim, H., Linn, J., & Chiang, P. (2015). Building green supply chains in eco-industrial parks towards a green economy: barriers and strategies. Journal of Environmental Management, 162, 158-170. google scholar

182

Li, J., Tian, B., Liu, T., Liu, H., Wen, X., & Honda, S. (2006). Status quo of e-waste management in mainland China. Journal of Material Cycles and Waste Management, 8(1), 13-20. google scholar

183

Lindhqvist, T. (2000). Extended producer responsibility in cleaner production-policy principle to promote environmental improvements of product systems. PhD Thesis. Lund: Lund University. google scholar

184

Liu, G., Xu, Y., Tian , T., Wang, T., & Liu, Y. (2020). The impacts of China’s fund policy on waste electrical and electronic equipment utilisation. Journal of Cleaner Production, 251(119582), 1-7. google scholar

185

Liu, H., Yang, M., Zhou, M., & Tian, G. (2019). An integrated multi-criteria decision making approach to location planning of electric vehicle charging stations. IEEE Transactions on Intelligent Transportation Systems, 20(1), 362-373. google scholar

186

Liu, L., Liang, Y., Song, Q., & Li, J. (2017). A review of waste prevention through 3R under the concept of circular economy in China. Journal of Material Cycles and Waste Management, 19(3), 1314–1323. google scholar

187

Liu, M., Li, H., Chen, P., Song, A., Peng, P., Hu, J., . . . Ying, G. (2022). PCDD/Fs and PBDD/Fs in sediments from the river encompassing Guiyu, a typical e-waste recycling zone of China. Ecotoxicology and Environmental Safety, 241, 1-11. google scholar

188

Liu, X., Tanaka, M., & Matsui, Y. (2006). Electrical and electronic waste management in China: progress and the barriers to overcome. Waste Management & Research, 24(1), 92-101. google scholar

189

Liu, X., Tanaka, M., & Matsui, Y. (2006a). Generation amount prediction and material flow analysis of electronic waste: a case study in Beijing, China. Waste management & research, 24, 434-445. google scholar

190

Liwarska-Bizukojc, E., Bizukojc, M., Marcinkowski, A., & Doniec, A. (2009). The conceptual model of an eco-industrial park based upon ecological relationships. Journal of Cleaner Production, 732-741. google scholar

191

Lodhia, S., Martin, N., & Rice, J. (2017). Extended producer responsibility for waste televisions and computers: A regulatory evaluation of the Australian experience. Journal of Cleaner Production, 164, 927-938. google scholar

192

Long, Y., Feng, Y., Cai, S., Ding, W., & Shen, D. (2013). Flow analysis of heavy metals in a pilot-scale incinerator for residues from waste electrical and electronic equipment dismantling. Journal of Hazardous Materials, 261, 427- 434. google scholar

193

Lu, C., Zhang, L., Zhong, Y., Ren, W., Tobias, M., Mu, Z., . . . Xue, B. (2015). An overview of e-waste management in China. Journal of Material Cycles and Waste Management, 17(1), 1-12. google scholar

194

Lu, L., Wernick, I., Hsiao, T., Yu, Y., Yang, Y., & Ma, H. (2006). Balancing the life cycle impacts of notebook computers: Taiwan’s experience. Resources, Conservation and Recycling, 48, 13-25. google scholar

195

Luo, Y., Luo, X., Lin, Z., Chen, S., Liu, J., Mai, B., & Yang, Z. (2009). Polybrominated diphenyl ethers in road and farmland soils from an e-waste recycling region in Southern China: concentrations, source profiles, and potential dispersion and deposition. Science of the Total Environment, 407(3), 1105-1113. google scholar

196

Mannino, I., Ninka, E., Turvani, M., & Chertow, M. (2015). The decline of eco-industrial development in Porto Marghera, Italy. Journal of Cleaner Production, 286-296. google scholar

197

Manomaivibool, P. (2009). Extended producer responsibility in a non-OECD context: the management of waste electrical and electronic equipment in India. Resources, Conservation and Recycling, 53(3), 136-144. google scholar

198

Manomaivibool, P., & Vassanadumrongdee, S. (2011). Extended producer responsibility in Thailand: prospects for policies on waste electrical and electronic equipment. Journal of Industrial Ecology, 15(2), 185-205. google scholar

199

Massarutto, A. (2014). The long and winding road to resource efficiency - An interdisciplinary perspective on extended producer responsibility. Resources, Conservation and Recycling, 85, 11-21. google scholar

200

Mathews, J., & Tan, H. (2011). Progress toward a circular economy in China: the drivers (and Inhibitors) of eco-industrial initiative. Journal of Industrial Ecology, 435-457. google scholar

201

Mayers, C., France, C., & Cowell, S. (2005). Extended producer responsibility for waste electronics: an example of printer recycling in the United Kingdom. Journal of Industrial Ecology, 9(3), 169-189. google scholar

202

Mayyas, A., Qattawi, A., Omar, M., & Shan, D. (2012). Design for sustainability in automotive industry: a comprehensive review. Renewable and Sustainable Energy Reviews, 16, 1845-1862. google scholar

203

Mazon, M., Azevedo, A., Pereira, N., & Silveira, M. (2012). Does environmental regulation foster the diffusion of collaborative innovations? A study on electronics waste regulation on Brazil. Procedia-Social and Behavioral Sciences, 52, 259-268. google scholar

204

McKerlie, K., Knight, N., & Thorpe, B. (2006). Advancing extended producer responsibility in Canada. Journal of Cleaner Production, 14, 616-628. google scholar

205

Meadowcroft, J. (1998.). Co-operative management regimes: a way forward? G. P., Co-Operative Environmental Governance: Public-Private Agreements as a Policy Strategy. Dordrecht: Kluwer. 21-42. google scholar

206

Meskers, C., & Hagelüken, C. (2009). Closed loop WEEE recycling? Challenges and opportunities for a global recycling society. Extraction & Processing Division. San Francisco: The Minerals, Metals & Materials Society. 1049-1054. google scholar

207

Migliano, J. E. B., Demajorovic, J., & Xavier, L. H. (2014). Shared responsibility and reverse logistics systems for e-waste in Brazil. Journal of Operations and Supply Chain Management, 7(2), 91–109. google scholar

208

Mundada, M., Kumar, S., & Shekdar, A. (2004). E‐waste: a new challenge for waste management in India. International Journal of Environmental Studies, 61(3), 265-279. google scholar

209

Munoz, I., Gazulla, C., Bala, A., Puig, R., & Fullana, P. (2009). LCA and ecodesign in the toy industry: case study of a teddy bear incorporating electric and electronic components. The International Journal of Life Cycle Assessment, 64-72. google scholar

210

Murthy, V., & Ramakrishna, S. (2022). A review on global e-waste management: urban mining towards a sustainable future and circular economy. Sustainability, 1-18. google scholar

211

Nakamura, S., & Kondo, Y. (2006). A waste input-output life-cycle cost analysis of the recycling of end-of-life electrical home appliances. Ecological Economics, 57(3), 494-506. google scholar

212

Neto, J., Silva, M., & Santos, S. (2019). A mini-review of e-waste management in Brazil: perspectives and challenges. Clean - Soil, Air, Water, 47, 1-10. google scholar

213

Nnorom, I., & Osibanjo, O. (2008). Electronic waste (e-waste): Material flows and management practices in Nigeria. Waste Management, 28, 1472-1479. google scholar

214

OECD. (2021). Environment at a Glance Indicators. Paris: OECD Publishing. [https://doi.org/10.1787/f5670a8d-en](https://doi.org/10.1787/f5670a8d-en) (Access date: 04.05.2021). google scholar

215

Olds, L. (2012). Curb your e-waste: Why the United States should control its electronic exports. The Cardozo Journal of International and Comparative Law, 20, 827-874. google scholar

216

Oliveira, J. D., Oliveira Neto, J. F., Silva, M. M., & Santos, S. M. (2020). E-waste mistakenly disposed of as recyclable waste: A case study from Brazil. Clean – Soil, Air, Water, 48(11), 1-10. google scholar

217

Oliveira Neto, G., Correia, A., & Schroeder, A. (2017). Economic and environmental assessment of recycling and reuse of electronic waste: Multiple case studies in Brazil and Switzerland. Resources, Conservation and Recycling, 127, 42-55. google scholar

218

Oliveira Vieira, B., Guarnieri, P., Silva , L., & Alfinito, S. (2020). Prioritizing barriers to be solved to the implementation of reverse logistics of e-waste in brazil under a multicriteria decision aid approach. Sustainability, 12(10), 1-30. google scholar

219

Oliveira, C., Bernardes, A., & Gerbase, A. (2012). Collection and recycling of electronic scrap: A worldwide overview and comparison with the Brazilian situation. Waste management, 32(8), 1592-1610. google scholar

220

Ongondo, F., Williams, I., & Cherrett, T. (2011). How are WEEE doing? A global review of the management of electrical and electronic wastes. Waste Management, 31(4), 714-730. google scholar

221

Oteng-Ababio, M. (2012). When necessity begets ingenuity: e-waste scavenging as a livelihood strategy in Accra, Ghana. African Studies Quarterly, 13, 1-21. google scholar

222

Oteng-Ababio, M., & Amankwaa, E. (2014). The E-waste conundrum: balancing evidence from the North and on-the-ground developing countries’ realities for improved management. African Review of Economics and Finance, 6(1), 181-204. google scholar

223

Oteng-Ababio, M., Amankwaa, E. F., & Chama, M. A. (2014). The local contours of scavenging for e-waste and higher-valued constituent parts in Accra, Ghana. Habitat International, 43, 163–171. google scholar

224

Oteng-Ababio, M., & Grant, R. (2019). Ideological traces in Ghana’s urban plans: How do traces get worked out in the Agbogbloshie, Accra? Habitat International, 83, 1–10. google scholar

225

Oteng-Ababio, M., & Grant, R. (2020). E-waste recycling slum in the heart of Accra, Ghana: the dirty secrets. M. Prasad, M. Vithanage, & A. Borthakur, Handbook of Electronic Waste Management: International Best Practices and Case Studies. Butterworth-Heinemann. 553-576. google scholar

226

Owusu-Sekyere, E., Peprah, K., & Demuyakor, R. (2018). Exploring the dynamics of E-waste disposal strategies in tamale, Ghana. Ghana Journal of Development Studies, 15(2), 168-192. google scholar

227

Owusu-Sekyere, K., Batteiger, A., Afoblikame, R., Hafner, G., & Kranert, M. (2022). Assessing data in the informal e-waste sector: The Agbogbloshie Scrapyard. Waste Management, 139, 158-167. google scholar

228

Owusu-Twum, M., Kumi-Amoah, G., Heve, W., Lente, I., Owusu, S., Larbi, L., & Amfo-Otu, R. (2022). Electronic waste control and management in Ghana: A critical assessment of the law, perceptions and practices. Waste Management & Research, 40(12), 1794-1802. google scholar

229

Ozkan, E., Elginoz, N., & Babuna, F. (2018). Life cycle assessment of a printed circuit board manufacturing plant in Turkey. Environmental Science and Pollution Research, 25, 26801-26808. google scholar

230

Özkır, V. Ç., Efendigil, T., Demirel, T., Demirel, N. Ç., Deveci, M., & Topçu, B. (2015). A three-stage methodology for initiating an effective management system for electronic waste in Turkey. Resources, Conservation and Recycling, 96, 61–70. google scholar

231

Öztürk, T. (2015). Generation and management of electrical-electronic waste (e-waste) in Turkey. Journal of Material Cycles and Waste Management, 17(3), 411-421. google scholar

232

Panchal, R., Singh, A., & Diwan, H. (2021). Economic potential of recycling e-waste in India and its impact on import of materials. Resources Policy, 74, 102264. google scholar

233

Panyathanakun, V., Tantayanon, S., Tingsabhat, C., & Charmondusit, K. (2013). Development of eco-industrial estates in Thailand: initiatives in the northern region community-based eco-industrial estate. Journal of Cleaner Production, 51, 71-79. google scholar

234

Parajuly, K., Habib, K., Cimpan, C., Liu, G., & Wenzel, H. (2016). End-of-life resource recovery from emerging electronic products - A case study of robotic vacuum cleaners. Journal of Cleaner Production, 137, 652-666. google scholar

235

Park, K., Rene, E., Choi, S., & Chiu, A. (2008). Strategies for sustainable development of industrial park in Ulsan, South Korea-From spontaneous evolution to systematic expansion of industrial symbiosis. Journal of Environmental Management , 1-13. google scholar

236

Park, J.-E., Kang, Y.-Y., Kim, W.-I., Jeon, T.-W., Shin, S.-K., Jeong, M.-J., & Kim, J.-G. (2014). Emission of polybrominated diphenyl ethers (PBDEs) in use of electric/electronic equipment and recycling of e-waste in Korea. Science of the Total Environment, 470–471, 1414–1421. google scholar

237

Park, P., Tahara, K., Jeong, I., & Lee, K. (2006). Comparison of four methods for integrating environmental and economic aspects in the end-of-life stage of a washing machine. Resources, Conservation and Recycling, 71-85. google scholar

238

Pascale, A., Sosa, A., Bares, C., Battocletti, A., Moll, M., Pose, D., . . . Feola, G. (2016). E-waste ınformal recycling: an emerging source of lead exposure in South America. Annals of global health, 82(1), 197-201. google scholar

239

Peagram, R., Williams, I., Curran, T., Mueller, S., den Boer, E., Kopacek, B., . . . Musterle, J. (2014). Business to business end‐of‐life it industrial networks. Waste and Resource Management, 167(WR4), 178-192. google scholar

240

Perkins, D., Drisse, M., Nxele, T., & Sly, P. (2014). E-waste: a global hazard. Annals of global health, 80(4), 286-295. google scholar

241

Pollock, D., & Coulon, R. (1996). Life cycle assessment of an inkjet print cartridge. International Symposium on Electronics and the Environment. USA: Dallas: IEEE. 154-160. google scholar

242

Prakash, S., Manhart, A., Amoyaw-Osei, Y., & Agyekum, O. O. (2010). Socio-economic assessment and feasibility study on sustainable e-waste management in Ghana. Institute of Applied Ecology (Öko-Institut e.V.). google scholar

243

Prek, M. (2004). Environmental impact and life cycle assessment of heating and air conditioning systems, a simplified case study. Energy and Buildings, 1021-1027. google scholar

244

Premalatha, M., Tabassum-Abbasi, Abbasi, T., & Abbasi, S. (2014). The generation, impact, and management of e-waste: state of the art. Critical Reviews in Environmental Science and Technology, 44, 1577-1678. google scholar

245

Puckett, J., & Smith, T. (2002). Exporting harm: the high-tech trashing of Asia. Seattle: Basel Action Network; Silicon Valley Toxics Coalition. google scholar

246

Puckett, J., Westervelt, S., Gutierrez, R., & Takamiya, Y. (2005). The digital dump. Exporting re-use and abuse to Africa. Seattle: Report from the Basel Action Network. google scholar

247

Qu, Y., Wang, W., Liu, Y., & Zhu, Q. (2019). Understanding residents’ preferences for e-waste collection in China - A case study of waste mobile phones. Journal of Cleaner Production, 228, 52-62. google scholar

248

Quaye, W., Akon-Yamga, G., Daniels, S., Ting, B., & Asante, A. (2019). Transformation, innovation learning history of Ghana’s e-waste management system. UK: CSIR-STEPRI-MESTI. google scholar

249

Queiruga, D., Walther, G., Gonzalez-Benito, J., & Spengler, T. (2008). Evaluation of sites for the location of WEEE recycling plants in Spain. Waste Management, 28, 181-190. google scholar

250

Rasheed, R., Rizwan, A., Javed, H., Sharif, F., Yasar, A., Tabinda, A., . . . Su, Y. (2022). Analysis of environmental sustainability of e‑waste in developing countries - a case study from Pakistan. Environmental Science and Pollution Research, 29, 36721-36739. google scholar

251

Rautela, R., Arya, S., Vishwakarma, S., Lee, J., Kim, K., & Kumar, S. (2021). E-waste management and its effects on the environment and human health. Science of the Total Environment, 773, 1-16. google scholar

252

Reuter, M., & Verhoef, E. (2004). A dynamic model for the assessment of the replacement of lead in solders. Journal of Electronic Materials, 33, 1567-1580. google scholar

253

Rhee, S. (2016). Beneficial use practice of e-wastes in Republic of Korea. Procedia Environmental Sciences, 31, 707-714. google scholar

254

Robinson, B. (2009). E-waste: An assessment of global production and environmental impacts. Science of the Total Environment, 408, 183-191. google scholar

255

Rochat, D., Hagelüken, C., Keller, M., & Widmer, R. (2007). Optimal recycling for printed wiring boards (PWBs) in India. R07 World Conference - Recovery of Materials and Energy for Resource. Davos. google scholar

256

Rodriguez-Bello, L., & Estupinian-Escalante, E. (2020). The impact of waste of electrical and electronic equipment public police in Latin America: analysis of the physical, economical, and information flow. M. Prasad, M. Vithanage, & A. Borthakur, Handbook of Electronic Waste Management. Oxford: Butterworth-Heinemann. 397-419. google scholar

257

Roller, G., & Führ, M. (2008). Individual producer responsibility: a remaining challenge under the WEEE Directive. RECIEL, 17(3), 277-283. google scholar

258

Rossem, C., Tojo, N., & Lindhqvist, T. (2006). Extended producer responsibility: an examination of its impact on innovation and greening products. Lund: Greenpeace International, Friends of the Earth and the European Environmental Bureau (EEB). google scholar

259

Rotter, V., Chancerel, P., & Schill, W. (2009). Implementing individual producer responsibility (IPR) under the European WEEE directive - experiences in Germany. IEEE International Symposium on Sustainable Systems and Technology. USA. 1-6. google scholar

260

Rousis, K., Moustakas, K., Malamis, S., Papadopoulos, A., & Loizidou, M. (2008). Multi-criteria analysis for the determination of the best WEEE management scenario in Cyprus. Waste Management, 28, 1941-1954. google scholar

261

Rucevska, I., Nellemann, C., Isarin, N., Yang, W., Liu, N., Yu, K., . . . Nilsen, R. (2015). Waste crime - waste risks: Gaps in meeting the global waste challenge. Birkeland: GRID-Arendal & UNEP. google scholar

262

Sachs, N. (2006). Planning the funeral at the birth: extended producer responsibility in the European Union and the United States. Environmental Law Review, 51-98. google scholar

263

Santos, S., & Ogunseitan, O. (2022). E-waste management in Brazil: challenges and opportunities of a reverse logistics model. Environmental Technology & Innovation, 102671, 1-5. google scholar

264

Satake, K., & Oishi, S. (1998). LCA for electronic products. A case study for CD-ROM drives. Proceedings of the 1998 IEEE International Symposium on Electronics and the Environment. Kanagawa: IEEE. 176-179. google scholar

265

Scharnhorst, W., Althaus, H., Classen, M., Jolliet, O., & Hilty, L. (2005). The end of life treatment of second generation mobile phone networks: Strategies to reduce the environmental impact. Environmental Impact Assessment Review, 25, 540- 566. google scholar

266

Schluep, M., Dittke, S., Newson, G., Kane, C., & Hieronymi, K. (2008). A material recovery facility in Cape Town, South Africa, as a replicable concept for sustainable ewaste management and recycling in developing countries. Global Symposium on Recycling, Waste Treatment and Clean Technology, Mexico: Cancun. google scholar

267

Schluep, M., Hageluekenb, C., Kuehrc, R., Magalinic, F., Maurerc, C., Meskersb, C., . . . Wang, F. (2009). Recycling: from e-waste to resources. Berlin: United Nations Environment Programme & United Nations University. google scholar

268

Schumacher, K., & Agbemabiese, L. (2019). Towards comprehensive e-waste legislation in the United States: design considerations based on quantitative and qualitative assessments. Resources, Conservation and Recycling, 149, 605-621. google scholar

269

Schüler, D., Buchert, M., Liu, R., Dittrich, S., & Merz, C. (2011). Final report for the greens/EFA group in the european parliament. Darmstadt/Berlin: Öko-Institut. google scholar

270

Seeberger, J., Grandhi, R., Kim, S. S., Mase, W. A., Reponen, T., Ho, S., & Chen, A. (2016). E-waste management in the United States and public health implications. Journal of Environmental Health, 79(3), 8–14. google scholar

271

Sepúlveda, A., Schluep, M., Renaud, F., Streicher, M., Kuehr, R., Hagelüken, C., & Gerecke, A. (2010). A review of the environmental fate and effects of hazardous substances released from electrical and electronic equipments during recycling: examples from China and India. Environmental Impact Assessment Review, 30, 28-41. google scholar

272

Shi, H., Chertow, M., & Song, Y. (2010). Developing country experience with eco-industrial parks: a case study of the Tianjin Economic-Technological Development Area in China. Journal of Cleaner Production, 191-199. google scholar

273

Shinkuma, T., & Huong, N. (2009). The flow of e-waste material in the Asian region and a reconsideration of international trade policies on e-waste. Environmental Impact Assessment Review, 29 (1), 25-31. google scholar

274

Shittu, O., Williams, I., & Shaw, P. (2021). Global e-waste management: can WEEE make a difference? A review ofe-waste trends, legislation, contemporary issues and future challenges. Waste Management, 120, 549-563. google scholar

275

Shumon, M., Ahmed, S., & Islam, M. (2014). Electronic waste: present status and future perspectives of sustainable management practices in Malaysia. Environmental Earth Sciences, 72(7), 2239-2249. google scholar

276

Silveira, G., & Chang, S. (2010). Cell phone recycling experiences in the United States and potential recycling options in Brazil. Waste management, 30(11), 2278-2291. google scholar

277

Singhal, S., & Kapur, A. (2002). Industrial estate planning and management in India: an integrated approach towards industrial ecology. Journal of Environmental Management, 19-29. google scholar

278

Sinha-Khetriwal, D. (2019). E-waste management in India. G. Vannessa, A. Stevels, & J. Huisman, Waste electrical and electronic equipment (WEEE) handbook. Cambridge: Woodhead Publishing. 541-570. google scholar

279

Sinha-Khetriwal, D., Kraeuchi, P., & Schwaninger, M. (2005). A comparison of electronic waste recycling in Switzerland and in India. Environmental Impact Assessment Review, 25(5), 492–504. google scholar

280

Sinha-Khetriwal, D., Kraeuchi, P., & Widmer, R. (2009). Producer responsibility for e-waste management: key issues for consideration-learning from the Swiss experience. Journal of Environmental Management, 90, 153-165. google scholar

281

Sirait, M., Biswas, W., & Boswell, B. (2012). Personal computer life cycle assessment study: the case of Western Australia. 10th Global Conference on Sustainable Manufacturing. Berlin-Ankara: Berlin Institute of Technology-Middle East Technical University. 277-280. google scholar

282

Skinner, A., Dinter, Y., Lloyd, A., & Strothmann, P. (2010). The challenges of e-waste management in India: can India draw lessons from the EU and the USA. Asien, 117(7), 7-26. google scholar

283

Socolof, M., Overly, J., & Geibig, J. (2005). Environmental life-cycle impacts of CRT and LCD desktop computer displays. Journal of Cleaner Production, 13, 1281-1294. google scholar

284

Song, Q., Zeng, X., Li, J., Duan, H., & Yuan, W. (2015). Environmental risk assessment of CRT and PCB workshops in a mobile e-waste recycling plant. Environmental Science and Pollution Research, 22, 12366-12373. google scholar

285

Soo, V., & Doolan, M. (2014). Recycling mobile phone impact on life cycle assessment. Procedia CIRP, 15, 263-271. google scholar

286

Souza, R. G. (2020). E-waste situation and current practices in Brazil. In V. Annamalai, M. Doble, & A. Ahmed (Eds.), Handbook of electronic waste management: International best practices and case studies (pp. 377–396). Elsevier. google scholar

287

Souza, R., Clímaco, J., Sant’Anna, A., Rocha, T., Valle, R., & Quelhas, O. (2016). Sustainability assessment and prioritisation of e-waste management options in Brazil. Waste management, 57, 46-56. google scholar

288

Souza, R., Rosenhead, J., Salhofer, S., Valle, R., & Lins, M. (2015). Definition of sustainability impact categories based on stakeholder perspectives. Journal of Cleaner Production, 105, 41-51. google scholar

289

Steubing, B., Böni, H., Schluep, M., Silva, U., & Ludwig, C. (2010). Assessing computer waste generation in Chile using material flow analysis. Waste Management, 30, 473-482. google scholar

290

Sthiannopkao, S., & Wong, M. (2013). Handling e-waste in developed and developing countries: Initiatives, practices, and consequences. Science of the Total Environment, 463-464, 1147-1153. google scholar

291

Streicher-Porte, M. (2006). SWICO/S.EN.S, the Swiss WEEE recycling systems and best practices from other European systems. Proceedings of the 2006 IEEE International Symposium on Electronics and the Environment (pp. 280–287). IEEE. google scholar

292

Streicher-Porte, M., Bader, H., Scheidegger, R., & Kytzia, S. (2007). Material flow and economic analysis as a suitable tool for system analysis under the constraints of poor data availability and quality in emerging economies. Clean Technologies and Environmental Policy, 9, 325-345. google scholar

293

Streicher-Porte, M., Marthaler, C., Böni, H., Schluep, M., Camacho, A., & Hilty, L. (2009). One laptop per child, local refurbishment or overseas donations? Sustainability assessment of computer supply scenarios for schools in Colombia. Journal of Environmental Management, 90, 3498-3511. google scholar

294

Sun, L., Spekkink, W., Cuppen, E., & Korevaar, G. (2017). Coordination of industrial symbiosis through anchoring. Sustainability , 1-21. google scholar

295

Şahan, M., Küçüker, M. A., Demirel, B., Kuchta, K., & Hursthouse, A. (2019). Determination of metal content of waste mobile phones and estimation of their recovery potential in Turkey. International Journal of Environmental Research and Public Health, 16(5), 887. google scholar

296

Tanskanen, P. (2012). Electronic waste: recycling of mobile phones. E. Damanhuri, Post-Consumer Waste Recycling and Optimal Production. Croatia: InTech. 129-150 google scholar

297

Tari, I., & Alumur, S. (2014). Collection center location with equity considerations in reverse logistics networks. INFOR: Information Systems and Operational Research, 157-173. google scholar

298

Temel, F. A., Konuk, N., Turan, N. G., Ayeri, T., & Ardali, Y. (2018). The SWOT analysis for sustainable MSWM and minimization practices in Turkey. Global NEST Journal, 20(1), 83–87. google scholar

299

Tınmaz, E., & Demir, İ. (2006). Research on solid waste management system: To improve existing situation in Corlu Town of Turkey. Waste Management, 26(3), 307–314. google scholar

300

Tian, T., Liu, G., Yasemi, H., & Liu, Y. (2022). Managing e-waste from a closed-loop lifecycle perspective: China’s challenges and fund policy redesign. Environmental Science and Pollution Research, 1-12. google scholar

301

Toffel, M., Stein, A., & Lee, K. (2008). Extending producer responsibility: an evaluation framework for product take-back policies. Harvard Business School Technology & Operations Mgt. Unit Research Paper, 1-26. google scholar

302

Tsydenova, O., & Bengtsson, M. (2011). Chemical hazards associated with treatment of waste electrical. Waste Management, 31, 45-58. google scholar

303

Turaga, R., Bhaskar, K., Sinha, S., Hinchliffe, D., Hemkhaus, M., Arora, R., . . . Sharma, H. (2019). E-waste management in india: issues and strategies. VIKALPA The Journal for Decision Makers, 44(3), 127-162. google scholar

304

Tuzkaya, G., Gülsün, B., & Önsel, Ş. (2011). A methodology for the strategic design of reverse logistics networks and its application in the Turkish white goods industry. International Journal of Production Research, 49(15), 4543–4571. google scholar

305

Ueno, T., Shiino, T., & Onishi, H. (1999). Evaluation of electronic components in life cycle assessment. Journal of Material Cycles and Waste Management, 25-32. google scholar

306

USGS. (2023). Mineral commodity summaries 2023: U.S. Geological Survey. Virginia: U.S. Department of the Interior. google scholar

307

USGS. (2024). Mineral commodity summaries 2023: U.S. Geological Survey. Virginia: U.S. Department of the Interior. google scholar

308

USGS. (2025). Mineral commodity summaries 2023: U.S. Geological Survey. Virginia: U.S. Department of the Interior. google scholar

309

Vadoudi, K., Kim, J., Laratte, B., Lee, S., & Troussier, N. (2015). E-waste management and resources recovery in France. Waste Management & Research, 33(10), 919-929. google scholar

310

Valentine, S. (2016). Kalundborg Symbiosis: fostering progressive innovation in environmental networks. Journal of Cleaner Production, 65-77. google scholar

311

Valentino, A. (2015). Eco-industrial parks: the international state of art. M. Caroli, M. Cavallo, & A. Valentino, Eco-Industrial Parks: A Green and Place Marketing Approach. Roma: Luiss University Press. 21-42. google scholar

312

Van Mier, G., Sterke, C., & Stevels, A. (1996). Life-cycle costs calculations and green design options. computer monitors as example. International Symposium on Electronics and the Environment. Eindhoven: IEEE. 191-196 google scholar

313

Vanegas, P., Peeters, J., Cattrysse, D., Dewulf, W., & Duflou, J. (2017). Improvement potential of today’s WEEE recycling performance: the case of LCD TVs in Belgium. Frontiers of Environmental Science & Engineering, 11(5), 1-15. google scholar

314

Veleva, V., Lowitt, P., Angus, N., & Neely, D. (2016). Benchmarking eco-industrial park development: the case of Devens. Benchmarking: An International Journal, 23(5), 1147-1170. google scholar

315

Veleva, V., Todorova, S., Lowitt, P., Angus, N., & Neely, D. (2015). Understanding and addressing business needs and sustainability challenges: lessons from Devens eco-industrial park. Journal of Cleaner Production, 87, 375-384. google scholar

316

Veloso, L. R. S., Rodrigues, L. E. O. C., Ferreira, D. A., Magalhães, F. S., & Mansur, M. B. (2005). Development of a hydrometallurgical route for the recovery of zinc and manganese from spent alkaline batteries. Journal of Power Sources, 152(1), 295–302. google scholar

317

Villalba, L. (2020). Material Flow Analysis (MFA) and waste characterizations for formal and informal performance indicators in Tandil, Argentina: Decision-making implications. Journal of Environmental Management, 264, 1-11. google scholar

318

Vlachokostas, C., Michailidou, A., & Achillas, C. (2021). Multi-criteria decision analysis towards promoting waste-to-energy management strategies: a critical review. Renewable and Sustainable Energy Reviews, 138, 1-19. google scholar

319

Wäger, P., Hischier, R., & Eugster, M. (2011). Environmental impacts of the Swiss collection and recovery systems for waste electrical and electronic equipment (WEEE): A follow-up. Science of the Total Environment, 409, 1746-1756. google scholar

320

Walls, M. (2004). EPR policy goals and policy choices: what does economics tell us? Economic Aspects of Extended Producer Responsibility. Paris: OECD Publishing. google scholar

321

Walls, M. (2006). Extended producer responsibility and product design: economic theory and selected case studies. Washington: Resources for the Future. google scholar

322

Walther, G., & Spengler, T. (2005). Impact of WEEE-directive on reverse logistics in Germany. International Journal of Physical Distribution & Logistics Management, 35(5), 337–361. google scholar

323

Walther, G., Steinborn, J., Spengler, T., Luger, T., & Herrmann, C. (2010). Implementation of the WEEE-directive - economic effects and improvement potentials for reuse and recycling in Germany. The International Journal of Advanced Manufacturing Technology, 47, 461-474. google scholar

324

Wang, M., Tan, Q., Chiang, J., & Li, J. (2017). Recovery of rare and precious metals from urban mines-A review. Frontiers of Environmental Science & Engineering, 11(5), 1-17. google scholar

325

Wang, Y., Ru, Y., Veenstra, A., Wang, R., & Wang, Y. (2010). Recent developments in waste electrical and electronics equipment legislation in China. The International Journal of Advanced Manufacturing Technology, 47(5-8), 437-448. google scholar

326

Wang, Z., Shi, L., Hu, D., Xu, Y., & Sun, D. (2010a). Pursuing sustainable industrial development through the ecoindustrial parks: Three case studies of China. Annals of the New York Academy of Sciences, E145-E153. google scholar

327

Wath, S. B., Dutt, P. S., & Chakrabarti, T. (2011). E-waste scenario in India, its management and implications. Environmental Monitoring and Assessment, 172(1–4), 249–262. google scholar

328

Wath, S. B., Vaidya, A. N., Dutt, P. S., & Chakrabarti, T. (2010). A roadmap for development of sustainable E-waste management system in India. Science of the Total Environment, 409(1), 19–32. google scholar

329

Wei, L., & Liu, Y. (2012). Present status of e-waste disposal and recycling in China. Procedia Environmental Sciences, 16, 506–514. google scholar

330

Widmer, R., Oswald-Krapf, H., Sinha-Khetriwal, D., Schnellmannc, M., & Böni, H. (2005). Global Perspectives on e-waste. Environmental Impact Assessment Review, 25, 436- 458. google scholar

331

Wilburn, D. (2012). Byproduct metals and rare-earth elements used in the production of light-emitting diodes-overview of principal sources of supply and material requirements for selected markets. Virginia: U.S. Government Publication. google scholar

332

Williams, I. (2016). Global metal reuse, and formal and informal recycling from electronics and other high-tech wastes. R. Izatt, Metal Sustainability: global challenges, consequences, and prospects. Oxford: Wiley. 23-51. google scholar

333

Wittstruck, D., & Teuteberg, F. (2012). Integrating the concept of sustainability into the partner selection process: a fuzzy-AHP-TOPSIS approach. International Journal of Logistics Systems and Management, 12(2), 195-226. google scholar

334

Wong, M., Wu, S., Deng, W., Yu, X., Luo, Q., Leung, A., . . . Wong, A. (2007). Export of toxic chemicals e A review of the case of uncontrolled electronic-waste recycling. Environmental Pollution, 149, 131-140. google scholar

335

Wright, R., Cote, R., Duffy, J., & Brazner, J. (2009). Diversity and connectance in an ındustrial context: the case of Burnside Industrial Park. Journal of Industrial Ecology, 551-564. google scholar

336

Yadav, V., Karmakar, S., Dikshit, A. K., & Vanjari, S. (2016). A feasibility study for the locations of waste transfer stations in urban centers: A case study on the city of Nashik, India. Journal of Cleaner Production, 126, 191–205. google scholar

337

Yanagitani, K., & Kawahara, K. (2000). LCA study of air conditioners with an alternative refrigerant. The International Journal of Life Cycle Assessment, 5, 287 - 290. google scholar

338

Yang, C., Tan, Q., Liu, L., Dong, Q., & Li, J. (2017). Recycling tin from electronic waste: a problem that needs more attention. ACS Sustainable Chemistry and Engineering, 5, 9586−9598. google scholar

339

Yang, J., Lu, B., & Xu, C. (2008). WEEE flow and mitigating measures in China. Waste Management, 28 (9), 1589-1597. google scholar

340

Yang, W., Sun, Q., & Ni, H. (2021). Cost-benefit analysis of metal recovery from e-waste: Implications for international policy. Waste Management, 123, 42-47. google scholar

341

Ye, J., Kayaga, S., & Smout, I. (2009). Regulating for e-waste in China: progress and challenges. Proceedings of the Institution of Civil Engineers-Municipal Engineer, 162(2), 79-85. google scholar

342

Yi, Z. (1986). Changes in family structure in China: a simulation study. Population and Development Review, 12(4), 675-703. google scholar

343

Ylä-Mella, J., & Román, E. (2019). Waste electrical and electronic equipment management in Europe: learning from best practices in Switzerland, Norway, Sweden and Denmark. V. Goodship, A. Stevels, & J. Huisman, Waste electrical and electronic equipment (WEEE) handbook. Cambridge: Woodhead Publishing. 483-519. google scholar

344

Yoon, H., & Jang, Y.-C. (2006). The practice and challenges of electronic waste recycling in Korea with emphasis on extended producer responsibility (EPR). IEEE International Symposium on Electronics and the Environment (pp. 326–330). google scholar

345

Yoshida, A., & Terazono, A. (2010). Reuse of second-hand TVs exported from Japan to the Philippines. Waste Management, 30(6), 1063-1072. google scholar

346

Yoshida, A., Tasaki, T., & Terazono, A. (2009). Material flow analysis of used personal computers in Japan. Waste Management, 29, 1602-1614. google scholar

347

Yu, C., Jong, M., & Dijkema, G. (2014). Process analysis of eco-industrial park development e the case of Tianjin, China. Journal of Cleaner Production, 464-477. google scholar

348

Yu, J., Ju, M., & Williams, E. (2009). Waste electrical and electronic equipment recycling in China: practices and strategies. IEEE International Symposium on Sustainable Systems and Technology. Arizona. google scholar

349

Yu, J., Williams, E., Ju, M., & Shao, C. (2010). Managing e-waste in China: policies, pilot projects and alternative approaches. Resources, Conservation and Recycling, 54(11), 991-999. google scholar

350

Yune, J., Tian, J., Liu, W., Chen, L., & Descamps-Large, C. (2016). Greening Chinese chemical industrial park by implementing industrial ecology strategies: a case study. Resources, Conservation and Recycling, 54-64. google scholar

351

Zeng, X., & Li, J. (2019). WEEE management in China. V. Goodship, A. Stevels, & J. Huisman, Waste electrical and electronic equipment (WEEE) handbook, Cambridge: Woodhead Publishing. 521-540. google scholar

352

Zeng, X., Huo, X., Xu, X., Liu, D., & Wu, W. (2020). E-waste lead exposure and children's health in China. Science of the Total Environment, 734, 1-11. google scholar

353

Zeng, X., Song, Q., Li, J., Yuan, W., Duan, H., & Liu, L. (2015). Solving e-waste problem using an integrated mobile recycling plant. Journal of Cleaner Production, 90, 55-59. google scholar

354

Zeng, X., Xu, X., Boezen, H., & Huo, X. (2016). Children with health impairments by heavy metals in an e-waste recycling area. Chemosphere, 148, 408-415. google scholar

355

Zeschmar-Lahl, B. (2004). Practical handbook of material flow analysis. The International Journal of Life Cycle Assessment, 337-338. google scholar

356

Zhang, H., Hara, K., Yabar, H., Yamaguchi, Y., Uwasu, M., & Morioka, T. (2009). Comparative analysis of socio-economic and environmental performances for Chinese EIPs: case studies in Baotou, Suzhou, and Shanghai. Sustainability Science, 263-279. google scholar

357

Zhang, Y., Zheng, H., Chen, B., & Yang, N. (2013). Social network analysis and network connectedness analysis for industrial symbiotic systems: model development and case study. Frontiers in Earth Science, 7(2), 169-181. google scholar

358

Zhong, H. (2012). Design for e-waste recycling deposit system and expense mechanism in China. E. Damanhuri, Post-Consumer Waste Recycling and Optimal Production. Croatia: InTech. 151-166. google scholar

359

Zhu, Q., Lowe, E., Wei, Y., & Barnes, D. (2007). Industrial symbiosis in China: a case study of the Guitang Group. Journal of Industrial Ecology, 11(1), 31-42. google scholar