Revisiting e-waste management: A review of global practices and sustainability

Year 2024, Volume: 7 Issue: 4, 588 - 604, 31.12.2024

Supratim Suin

https://doi.org/10.35208/ert.1468546

Cited By: 1

Abstract

With rapid population growth, as well as, technological advancement, the generation of e-wastes is increasing day by day and has become a fact of emergent concern for scientific and research communities worldwide. Though the most developed territories generate the highest amount of e-wastes, little efforts has been put towards managing them. European countries, including United Kingdom, Germany, and France are managing significant amount of e-wastes responsibly. The informal and unscientific management of e-wastes led to severe health and environmental hazards. The traditional waste management methods, such as, landfilling, and incineration expels significant amount of heavy and toxic chemicals to the environment, leading to severe air, water, and soil pollution. However, proper management strategies for e-wastes not only inhibit the associated harmful effect towards the lives on earth, but also favor circular economy. The sustainability of the strategies for managing e-wastes lie in the responsibility of all stakeholders associated with it. In this review, we have discussed the statistics of global of e-wastes generation and recycling, effect of e-wastes towards lives and the environment, different methodologies of managing e-wastes, and strategies for sustainable e-waste management.

Keywords

E-waste, recycling, environmental pollution, health hazards, sustainable strategies

References

• J. Li, H. Lu, J. I. E. Guo, Z. Xu, and Y. Zhou “Recycle technology for recovering resources and products from waste printed circuit boards,” Environmental Science and Technology, Vol. 41(6), pp. 1995-2000, 2007. [CrossRef]
• J. Huang, M. Chen, H. Chen, S. Chen, and Q. Sun, “Leaching behavior of copper from waste printed circuit boards with Brønsted acidic ionic liquid,” Waste Management, Vol. 34(2), pp. 483-488, 2014. [CrossRef]
• H. M. Veit, and A. M. Bernardes, “Electronic waste: generation and management,” Electronic Waste: Recycling Techniques, pp. 3-12, 2015. [CrossRef]
• Clearias, “E-waste: causes, concerns and management, https://www.clearias.com/e-waste/ Accessed on Nov 04, 2024.
• EPA (United States Environmental Protection Agency), “The life cycle of a mobile Phone—solid waste and emergency response”, EPA (United States Environmental Protection Agency), 2024.
• B. H. Robinson, “E-waste: an assessment of global production and environmental impacts,” Science of the Total Environment, Vol. 408(2), pp. 183-191, 2009. [CrossRef]
• statista.com, “Electronic waste worldwide,” https://www.statista.com/topics/3409/electronic-waste-worldwide/
• TheRoundup.org, “Latest global e-waste statistics and what they tell us,” https://theroundup.org/global-e-waste-statistics/
• D. Dasgupta, S. Majumder, J. Adhikari, P. Ghosh, D. Purchase, H. Garelick, ... and D. Chatterjee, “E-waste management ın Indian microscale ınformal sectors–an environmental perspective towards policy regulation,” 2022. Preprint. doi: 10.21203/rs.3.rs-1089035/v1. [CrossRef]
• M. Kaya, “Recovery of metals from electronic waste by physical and chemical recycling processes,” International Journal of Chemical and Molecular Engineering, Vol. 10(2), pp. 259-270, 2016.
• Y. C. Chien, and P. H. Shih, “Emission of polycyclic aromatic hydrocarbons on the combustion of liquid crystal display components” Journal of Environmental Engineering, Vol. 132(9), pp. 1028-1033, 2006. [CrossRef]
• J. Ylä-Mella, K. Poikela, U. Lehtinen, P. Tanskanen, E. Román, R. L. Keiski, and E. Pongrácz, “Overview of the WEEE Directive and its implementation in the Nordic countries: national realisations and best practices,” Journal of Waste Management, Vol. 2014, Article 457372, 2014. [CrossRef]
• A. Singh, S. P. Dwivedi, and A. Tripathi, “Study of the toxicity of metal contamination in soil samples collected from abandoned e-waste burning sites in Moradabad, India,” Nature Environment and Pollution Technology, Vol. 17(3), pp. 973-979, 2018.
• I. C. Nnorom, and O. Osibanjo, “Overview of electronic waste (e-waste) management practices and legislations, and their poor applications in the developing countries,” Resources, Conservation and Recycling, Vol. 52(6), pp. 843-858, 2008. [CrossRef]
• C. Hageluken, and S. Art, Recycling of e-scrap in a global environment: opportunities and challenges. Tackling e-waste towards efficient management techniques, TERI Press, New Delhi, pp. 87-104, 2007.
• C. Hagelüken, Recycling of electronic scrap at Umicore’s integrated metals smelter and refinery. Erzmetall, Vol. 59(3), pp. 152-161, 2006.
• K. Joseph, “Electronic waste management in India–issues and strategies. In Eleventh international waste management and landfill symposium,” Proceedings Sardinia 2007, Eleventh International Waste Management and Landfill Symposium S. Margherita di Pula, Cagliari, Italy; 1-5 October 2007, CISA, Environmental Sanitary Engineering Centre, Italy, 2007.
• M. Aria, and C. Cuccurullo, “Bibliometrix: An R-tool for comprehensive science mapping analysis,” Journal of Informetrics, Vol. 11(4), pp. 959-975, 2017. [CrossRef]
• V. Forti, C. P. Balde, R. Kuehr, and G. Bel, “The Global E-waste Monitor 2020: Quantities, flows and the circular economy potential,” UNU/UNITAR SCYCLE, ITU, ISWA, 2020.
• R. Afroz, M. M. Masud, R. Akhtar, and J. B. Duasa “Survey and analysis of public knowledge, awareness and willingness to pay in Kuala Lumpur, Malaysia–a case study on household WEEE management,” Journal of Cleaner Production, Vol. 52, pp. 185-193, 2013. [CrossRef]
• J. Li, L. Liu, N. Zhao, K. Yu, and L. Zheng, “Regional or global WEEE recycling. Where to go?” Waste Management, Vol. 33(4), pp. 923-934, 2013. [CrossRef]
• P. Kiddee, R. Naidu, and M. H. Wong, “Electronic waste management approaches: An overview,” Waste Management, Vol. 33(5), pp. 1237-1250, 2013. [CrossRef]
• A. O. Leung, W. J. Luksemburg, A. S. Wong, and M. H. Wong, “Spatial distribution of polybrominated diphenyl ethers and polychlorinated dibenzo-p-dioxins and dibenzofurans in soil and combusted residue at Guiyu, an electronic waste recycling site in southeast China,” Environmental Science and Technology, Vol. 41(8), pp. 2730-2737, 2007. [CrossRef]
• I. C. Nnorom, and O. Osibanjo, “Electronic waste (e-waste): Material flows and management practices in Nigeria,” Waste Management, Vol. 28(8), pp. 1472-1479, 2008. [CrossRef]
• C. Frazzoli, O. E. Orisakwe, R. Dragone, and A. Mantovani, “Diagnostic health risk assessment of electronic waste on the general population in developing countries' scenarios.” Environmental Impact Assessment Review, Vol. 30(6), pp. 388-399, 2010. [CrossRef]
• M. Chen, F. S. Zhang, and J. Zhu, “Leaching toxicity of Pb and Ba containing in cathode ray tube glasses by SEP–TCLP,” In Recycling of Electronic Waste II: Proceedings of the Second Symposium Wiley Online Library, 2011. [CrossRef]
• H. Duan, J. Li, Y. Liu, N. Yamazaki, and W. Jiang, “Characterization and inventory of PCDD/Fs and PBDD/Fs emissions from the incineration of waste printed circuit board,” Environmental Science and Technology, Vol. 45(15), pp. 6322-6328, 2011. [CrossRef]
• K. Grant, F. C. Goldizen, P. D. Sly, M. N. Brune, M. Neira, M. van den Berg, and R. E. Norman, “Health consequences of exposure to e-waste: a systematic review” The Lancet Global Health, Vol. 1(6), pp. e350-e361, 2013. [CrossRef]
• M. Herva, and E. Roca, “Ranking municipal solid waste treatment alternatives based on ecological footprint and multi-criteria analysis,” Ecological Indicators, Vol. 25, pp. 77-84, 2013. [CrossRef]
• S. Agyei-Mensah, and M. Oteng-Ababio, “Perceptions of health and environmental impacts of e-waste management in Ghana” International Journal of Environmental Health Research, Vol. 22(6), pp. 500-517, 2012. [CrossRef]
• R. Liu, S. Ma, G. Li, Y. Yu, and T. An, “Comparing pollution patterns and human exposure to atmospheric PBDEs and PCBs emitted from different e-waste dismantling processes,” Journal of Hazardous Materials, Vol. 369, pp. 142-149, 2019. [CrossRef]
• World Health Organization, “Environment, Climate Change and Health,” https://www.who.int/teams/environment-climate-change-and-health/settings-populations/children/e-waste Accessed on May 20, 2023.
• Elytus, “E-Waste and its negative effects on the environment,” https://elytus.com/blog/e-waste-and-its-negative-effects-on-the-environment.html Accessed on Nov 04, 2024.
• P. Pathak, and R. R. Srivastava, “Environmental management of e-waste. In Electronic waste management and treatment technology” Butterworth-Heinemann, pp. 103-132, 2019. [CrossRef]
• M. N. V. Prasad, M., M. Vithanage, and A. Borthakur (Eds.), Handbook of electronic waste management: international best practices and case studies. Butterworth-Heinemann, 2019.
• C. W. Schmidt, “e-Junk explosion,” Environmental Health Perspectives, Vol. 110(4), pp. A188-A194, 2002. [CrossRef]
• G. C. Yang, “Environmental threats of discarded picture tubes and printed circuit boards,” Journal of Hazardous Materials, Vol. 34(2), pp. 235-243, 1993. [CrossRef]
• A. Kasassi, P. Rakimbei, A. Karagiannidis, A. Zabaniotou, K. Tsiouvaras, A. Nastis, and K. Tzafeiropoulou, “Soil contamination by heavy metals: Measurements from a closed unlined landfill,” Bioresource Technology, Vol. 99(18), pp. 8578-8584, 2008. [CrossRef]
• S. R. Qasim, and W. Chiang, “Sanitary landfill leachate: generation, control and treatment,” CRC Press, 1994.
• J. C. Lee, H. T. Song, and J. M. Yoo, “Present status of the recycling of waste electrical and electronic equipment in Korea,” Resources, Conservation and Recycling, Vol. 50(4), pp. 380-397, 2007. [CrossRef]
• C. Luo, C. Liu, Y. Wang, X. Liu, F. Li, G. Zhang, and X. Li, “Heavy metal contamination in soils and vegetables near an e-waste processing site, south China,” Journal of Hazardous Materials, Vol. 186(1), pp. 481-490, 2011. [CrossRef]
• C. V. Owens Jr, C. Lambright, K. Bobseine, B. Ryan, L. E. Gray Jr, B. K. Gullett, and V. S. Wilson, “Identification of estrogenic compounds emitted from the combustion of computer printed circuit boards in electronic waste” Environmental Science and Technology, Vol. 41(24), pp. 8506-8511, 2007. [CrossRef]
• W. Funcke, H. J. Hemminghaus, F. E. Mark, and J. Vehlow, “PXDF/D in flue gas from an incinerator charging wastes containing Cl and Br and a statistical description of the resulting PXDF/D combustion profiles,” Organohalogen Compounds, Vol. 31, pp. 93-98, 1997.
• E. S. Stewart, and P. M. Lemieux, “Emissions from the incineration of electronics industry waste,” IEEE International Symposium on Electronics and the Environment, pp. 271-275, 2003. [CrossRef]
• J. Cui, and E. Forssberg, “Mechanical recycling of waste electric and electronic equipment: a review. Journal of Hazardous Materials,” Vol. 99(3), pp. 243-263, 2003. [CrossRef]
• J. Li, P. Shrivastava, Z. Gao, and H. C. Zhang, “Printed circuit board recycling: a state-of-the-art survey,” IEEE Transactions on Electronics Packaging Manufacturing, Vol. 27(1), pp. 33-42, 2004. [CrossRef]
• Taberman SO, B. Carlsson, H. Erichson, J. Brobech, and J. C. Gregersen’ “Environmental consequences of incineration and landfilling of waste from electronic equipment,” The Nordic Council of Ministers, Copenhagen, 1995.
• A. Khaliq, M. A. Rhamdhani, G. Brooks, and S. Masood, “Metal extraction processes for electronic waste and existing industrial routes: a review and Australian perspective,” Resources, Vol. 3(1), pp. 152-179, 2014. [CrossRef]
• T. Yang, P. Zhu, W. Liu, L. Chen, and D. Zhang, “Recovery of tin from metal powders of waste printed circuit boards,” Waste Management, Vol. 68, pp. 449-457, 2017. [CrossRef]
• A. Tuncuk, V. Stazi, A. Akcil, E. Y. Yazici, and H. Deveci, “Aqueous metal recovery techniques from e-scrap: Hydrometallurgy in recycling,” Minerals Engineering, Vol. 25(1), pp. 28-37, 2012. [CrossRef]
• H. M. Veit, T. R. Diehl, A. P. Salami, J. D. S. Rodrigues, A. M. Bernardes, and J. A. S. Tenório, “Utilization of magnetic and electrostatic separation in the recycling of printed circuit boards scrap,” Waste Management, Vol. 25(1), pp. 67-74, 2005. [CrossRef]
• A. Kumar, M. Holuszko, and D. C. R. Espinosa, “E-waste: An overview on generation, collection, legislation and recycling practices,” Resources, Conservation and Recycling, Vol. 122, pp. 32-42, 2017. [CrossRef]
• H. M. Veit, N. C. D. F. Juchneski, and J. Scherer, “Use of gravity separation in metals concentration from printed circuit board scraps. Rem: Revista Escola de Minas, Vol. 67, pp. 73-79, 2014. [CrossRef]
• H. Cui, and C. G. Anderson, “Literature review of hydrometallurgical recycling of printed circuit boards (PCBs),” Journal of Advanced Chemical Engineering, Vol. 6(1), pp. 142-153, 2016. [CrossRef]
• O. Tsydenova, and M. Bengtsson, “Chemical hazards associated with treatment of waste electrical and electronic equipment” Waste Management, Vol. 31(1), pp. 45-58, 2011. [CrossRef]
• T. Kinoshita, S. Akita, N. Kobayashi, S. Nii, F. Kawaizumi, and K. Takahashi, “Metal recovery from non-mounted printed wiring boards via hydrometallurgical processing,” Hydrometallurgy, Vol. 69(1-3), pp. 73-79, 2003. [CrossRef]
• Q. Tan, and J. Li, “Recycling metals from wastes: a novel application of mechanochemistry” Environmental Science and Technology, Vol. 49(10), pp. 5849-5861, 2015. [CrossRef]
• P. Karamanoğlu, and S. Aydın, “An economic analysis of the recovery of gold from CPU, boards, and connectors using aqua regia,” Desalination and Water Treatment, Vol. 57(6), pp. 2570-2575, 2016. [CrossRef]
• P. Quinet, J. Proost, and A. Van Lierde, “Recovery of precious metals from electronic scrap by hydrometallurgical processing routes,” Mining, Metallurgy and Exploration, Vol. 22, pp. 17-22, 2005. [CrossRef]
• S. Kulandaisamy, J. P. Rethinaraj, P. Adaikkalam, G. N. Srinivasan, and M. Raghavan, “The aqueous recovery of gold from electronic scrap,” JOM, Vol. 55, pp. 35-38, 2003. [CrossRef]
• V. H. Ha, J. C. Lee, J. Jeong, H. T. Hai, and M. K. Jha, “Thiosulfate leaching of gold from waste mobile phones,” Journal of Hazardous Materials, Vol. 178(1-3), pp. 1115-1119, 2010. [CrossRef]
• C. Abbruzzese, P. Fornari, R. Massidda, F. Veglio, and S. Ubaldini, “Thiosulphate leaching for gold hydrometallurgy,” Hydrometallurgy, Vol. 39(13), pp. 265-276, 1995. [CrossRef]
• A. Akcil, C. Erust, C. S. Gahan, M. Ozgun, M. Sahin, and A. Tuncuk, “Precious metal recovery from waste printed circuit boards using cyanide and non-cyanide lixiviants–a review,” Waste Management, Vol. 45, pp. 258-271, 2015. [CrossRef]
• B. Greene, M. Hosea, R. McPherson, M. Henzl, M. D. Alexander, and D. W. Darnall, “Interaction of gold (I) and gold (III) complexes with algal biomass” Environmental Science and Technology, Vol. 20(6), pp. 627-632, 1986. [CrossRef]
• F. Veglio, and F. Beolchini, “Removal of metals by biosorption: a review,” Hydrometallurgy, Vol. 44(3), pp. 301-316, 1997. [CrossRef]
• E. Romera, F. Gonzalez, A. Ballester, M. L. Blázquez, and J. A. Munoz, “Biosorption with algae: a statistical review,” Critical Reviews in Biotechnology, Vol. 26(4), pp. 223-235, 2006. [CrossRef]
• P. Yong, N. A. Rowson, J. P. G. Farr, I. R. Harris, and L. E. Macaskie, “Bioreduction and biocrystallization of palladium by Desulfovibrio desulfuricans NCIMB 8307,” Biotechnology and Bioengineering, Vol. 80(4), pp. 369-379, 2002. [CrossRef]
• I. De Vargas, L. E. Macaskie, and E. Guibal, “Biosorption of palladium and platinum by sulfate‐reducing bacteria,” Journal of Chemical Technology and Biotechnology: International Research in Process, Environmental and Clean Technology, Vol. 79(1), pp. 49-56, 2004. [CrossRef]
• Y. Sag, and T. Kutsal, “Recent trends in the biosorption of heavy metals: a review,” Biotechnology and Bioprocess Engineering, Vol. 6, pp. 376-385, 2001. [CrossRef]
• A. Sheel, and D. Pant, “Recovery of gold from electronic waste using chemical assisted microbial biosorption (hybrid) technique,” Bioresource Technology, Vol. 247, pp. 1189-1192, 2018. [CrossRef]
• M. M. Figueira, B. Volesky, V. S. T. Ciminelli, and F. A. Roddick, “Biosorption of metals in brown seaweed biomass,” Water Research, Vol. 34(1), pp. 196-204, 2000. [CrossRef]
• C. Mack, B. Wilhelmi, J. R. Duncan, and J. E. Burgess, “Biosorption of precious metals,” Biotechnology Advances, Vol. 25(3), pp. 264-271, 2007. [CrossRef]
• H. Brandl, R. Bosshard, and M. Wegmann, “Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi,” Hydrometallurgy, Vol. 59(2-3), pp. 319-326, 2001. [CrossRef]
• K. Bosecker, “Bioleaching: metal solubilization by microorganisms,” FEMS Microbiology Reviews, Vol. 20(3-4), pp. 591-604, 1997. [CrossRef]
• J. A. Brierley, and C. L. Brierley, “Present and future commercial applications of biohydrometallurgy,” Hydrometallurgy, Vol. 59(23), pp. 233-239, 2001. [CrossRef]
• J. Cui, and L. Zhang, “Metallurgical recovery of metals from electronic waste: A review,” Journal of Hazardous Materials, Vol. 158(2-3), pp. 228-256, 2008. [CrossRef]
• D. Pant, D. Joshi, M. K. Upreti, and R. K. Kotnala, “Chemical and biological extraction of metals present in E waste: a hybrid technology,” Waste Management, Vol. 32(5), pp. 979-990, 2012. [CrossRef]
• Y. Hong, and M. Valix, “Bioleaching of electronic waste using acidophilic sulfur oxidising bacteria,” Journal of Cleaner Production, Vol. 65, pp. 465-472, 2014. [CrossRef]
• S. Murakami, M. Oguchi, T. Tasaki, I. Daigo, and S. Hashimoto, “Lifespan of commodities, part I: The creation of a database and its review,” Journal of Industrial Ecology, Vol. 14(4), pp. 598-612, 2010. [CrossRef]
• European Commission, “Roadmap to a Resource Efficient Europe,” European Commission, 2011.
• C. Bakker, F. Wang, J. Huisman, and M. Den Hollander, “Products that go round: exploring product life extension through design,” Journal of Cleaner Production, Vol. 69, pp. 10-16, 2014. [CrossRef]
• S. Elevli, “Lifetime Extension Approach for decreasing e-wastes,” Journal of Turkish Operations Management, Vol. 6(2), pp. 1230-1238, 2022. [CrossRef]
• M. Xue, and Z. Xu, “Application of life cycle assessment on electronic waste management: a review,” Environmental Management, Vol. 59, pp. 693-707, 2017. [CrossRef]
• R. Hischier, P. Wäger, and J. Gauglhofer, “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),” Environmental Impact Assessment Review, Vol. 25(5), pp. 525-539, 2005. [CrossRef]
• Y. Barba-Gutiérrez, B. Adenso-Diaz, and M. Hopp, “An analysis of some environmental consequences of European electrical and electronic waste regulation,” Resources, Conservation and Recycling, Vol. 52(3), pp. 481-495, 2008. [CrossRef]
• P. H. Brunner, and H. Rechberger, “Handbook of material flow analysis: For environmental, resource, and waste engineers,” CRC Press, 2016. [CrossRef]
• T. Shinkuma, and N. T. M. Huong, “The flow of E-waste material in the Asian region and a reconsideration of international trade policies on E-waste,” Environmental Impact Assessment Review, Vol. 29(1), pp. 25-31, 2009. [CrossRef]
• N. Aydın, “Materials flow analysis as a tool to improve solid waste management: a case of Ankara,” Doğal Afetler ve Çevre Dergisi, Vol. 6(1), pp. 90-97, 2020. [CrossRef]
• M. Streicher-Porte, H. P. Bader, R. Scheidegger, and S. Kytzia, “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, Vol. 9, pp. 325-345, 2007. [CrossRef]
• M. Garfi, S. Tondelli and A. Bonoli, “Multi-criteria decision analysis for waste management in Saharawi refugee camps,” Waste Management, Vol. 29(10), pp. 2729-2739, 2009. [CrossRef]
• A. Hula, K. Jalali, K. Hamza, S. J. Skerlos, and K. Saitou, “Multi-criteria decision-making for optimization of product disassembly under multiple situations,” Environmental Science and Technology, Vol. 37(23), pp. 5303-5313, 2003. [CrossRef]
• D. Queiruga, G. Walther, J. Gonzalez-Benito, and T. Spengler, “Evaluation of sites for the location of WEEE recycling plants in Spain,” Waste Management, Vol. 28(1), pp. 181-190, 2008. [CrossRef]
• K. Rousis, K. Moustakas, S. Malamis, A. Papadopoulos, and M. Loizidou, “Multi-criteria analysis for the determination of the best WEEE management scenario in Cyprus,” Waste Management, Vol. 28(10), pp. 1941-1954, 2008. [CrossRef]
• E. Williams, “International activities on E-waste and guidelines for future work,” In Proceedings of the Third Workshop on Material Cycles and Waste Management in Asia, National Institute of Environmental Sciences: Tsukuba, Japan, 2005.
• R. Widmer, H. Oswald-Krapf, D. Sinha-Khetriwal, M. Schnellmann, and H. Böni. “Global perspectives on e-waste,” Environmental Impact Assessment Review, Vol. 25(5), pp. 436-458, 2005. [CrossRef]
• S. W. Chung and R. Murakami-Suzuki, “A comparative study of e-waste recycling systems in Japan, South Korea and Taiwan from the EPR perspective: implications for developing countries,” Kojima. Chiba, 21, 2008.
• Y. Ogushi and M. Kandlikar, “Assessing extended producer responsibility laws in Japan,” n Environmental Science & Technology, pp. 4502-4509, 2007. [CrossRef]
• K. Parajuly, C. Fitzpatrick, O. Muldoon, and R. Kuehr, “Behavioral change for the circular economy: A review with focus on electronic waste management in the EU,” Resources, Conservation and Recycling: X, Vol. 6, Article 100035, 2020. [CrossRef]
• M. T. Islam, N. Huda, A. Baumber, R. Shumon, A. Zaman, F. Ali, “A global review of consumer behavior towards e-waste and implications for the circular economy,” Journal of Cleaner Production, Vol. 316, Article 128297, 2021. [CrossRef]
• G. Martinho, D. Magalhães, and A. Pires, “Consumer behavior with respect to the consumption and recycling of smartphones and tablets: An exploratory study in Portugal,” Journal of Cleaner Production, Vol. 156, pp. 147-158, 2017. [CrossRef]
• A. K. Awasthi and J. Li, “Assessing resident awareness on e-waste management in Bangalore, India: a preliminary case study,” Environmental Science and Pollution Research, Vol. 25, pp. 11163-11172, 2018. [CrossRef]
• E. S. Pandebesie, I. Indrihastuti, S. A. Wilujeng, and I. D. A. A. Warmadewanthi, “Factors influencing community participation in the management of household electronic waste in West Surabaya, Indonesia,” Environmental Science and Pollution Research, Vol. 26, pp. 27930-27939, 2019. [CrossRef]
• J. D. M. Saphores, O. A. Ogunseitan, and A. A. Shapiro, “Willingness to engage in a pro-environmental behavior: An analysis of e-waste recycling based on a national survey of US households” Resources, Conservation and Recycling, Vol. 60, pp. 49-63, 2012. [CrossRef]
• R. Siringo, H. Herdiansyah, and R. D. Kusumastuti, “Underlying factors behind the low participation rate in electronic waste recycling,” Global Journal of Environmental Science and Management, Vol. 6(2), pp. 203-214, 2020.
• S. K. Adanu, S. F. Gbedemah, and M. K. Attah, “Challenges of adopting sustainable technologies in e-waste management at Agbogbloshie, Ghana,” Heliyon, Vol. 6(8), Article e04548, 2020. [CrossRef]
• X. Chi, M. Streicher-Porte, M. Y. Wang, and M. A. Reuter, “Informal electronic waste recycling: A sector review with special focus on China,” Waste Management, Vol. 31(4), pp. 731-742, 2011. [CrossRef]
• R. Rautela, S. Arya, S. Vishwakarma, J. Lee, K. H. Kim, and S. Kumar, “E-waste management and its effects on the environment and human health,” Science of the Total Environment, Vol. 773, Article 145623, 2021. [CrossRef]
• R. Gower, and P. Schröder, “Virtuous Circle: how the circular economy can create jobs and save lives in low and middle-income countries,” Institute of Development Studies and Tearfund, UK, 2016.
• R. Le Moigne, “Can Emerging Countries Benefit from the Circular Economy,” Circulate, 2015.