Abstract
During the recent past, electronic waste (E-waste) has emerged as a major category of toxic waste in both global North and global South. Particularly, the emerging economies such as India are a major contributor to the E-waste volume in the world today. Accordingly, we attempted to carry out this study to evaluate the journey of equipment from ‘electronic products’ to ‘electronic waste’ in the city of New Delhi in India. The purpose was to carry out an exclusive pilot study with the potential to replicate the same at a larger scale in major Indian metropolis which are mostly the hubs of intense E-waste generation. The case of mobile phones (both smartphones and feature phones) was considered as the key representative. A structured questionnaire survey was carried out with 334 purposively selected respondents in the city of New Delhi. Among several other noteworthy findings, we observed that there exists a gap among purchase behaviour of mobile phones, awareness on E-waste and disposal behaviour of these phones. For instance, the relatively high knowledge/awareness about E-waste is yet to be reflected in consumers’ responsible purchase and disposal behaviour. We argue that creating awareness among citizens is central to a sustainable E-waste management system and effective policy instruments.
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Abdelbasir SM, Hassan SSM, Kamel AH, El-Nasr RS (2018) Status of electronic waste recycling techniques: a review. Environ Sci Pollut Res 25(17):16533–16547
Andrade DF, Romanelli JP, Pereira-Filho ER (2019) Past and emerging topics related to electronic waste management: top countries, trends, and perspectives. Environ Sci Pollut Res 26(17):17135–17151
Awasthi AK, Zeng X, Li J (2016) Relationship between e-waste recycling and human health risk in India: a critical review. Environ Sci Pollut Res 23(12):11509–11532
Bissaillon JA (2008) Transformation: adaptive reuse as a response to a disposable society, University of Cincinnati
Borthakur A (2015) Generation and management of electronic waste in India: an assessment from stakeholders’ perspective. J Dev Soc 31(2):220–248
Borthakur A, Govind M (2017) Emerging trends in consumers’ E-waste disposal behaviour and awareness: a worldwide overview with special focus on India. Resour Conserv Recycl 117:102–113
Borthakur A, Govind M (2018) Public understandings of E-waste and its disposal in urban India: from a review towards a conceptual framework. J Clean Prod 172:1053–1066
Borthakur A, Govind M (2019) Computer and mobile phone waste in urban India: an analysis from the perspectives of public perception, consumption and disposal behaviour. J Environ Plan Manag 62(4):717–740
Dasgupta D, Debsarkar A, Hazra T, Bala BK, Gangopadhyay A, Chatterjee D (2017) Scenario of future e-waste generation and recycle-reuse-landfill-based disposal pattern in India: a system dynamics approach. Environ Dev Sustain 19(4):1473–1487
Davey S, Davey A (2014) Assessment of smartphone addiction in Indian adolescents: A mixed method study by systematic-review and metaanalysis approach. IJPM 5(12):1500–1511
de Oliveira Rafael G (2013) Planned obsolescence. Leadersh Manag Eng 13(4):262–264
Deng W-J, Giesy JP, So CS, Zheng H-L (2017) End-of-life (EoL) mobile phone management in Hong Kong households. J Environ Manag 200:22–28
Ding N, Wagner D, Chen X, Pathak A, Hu YC, Rice A (2013) “Characterizing and modeling the impact of wireless signal strength on smartphone battery drain.” SIGMETRICS perform. Eval Rev 41(1):29–40
Golev A, Werner TT, Zhu X, Matsubae K (2016) Product flow analysis using trade statistics and consumer survey data: a case study of mobile phones in Australia. J Clean Prod 133:262–271
Holmes DR (1997) Editorial comment: a disposable society: is it time for a change? Catheter Cardiovasc Diagn 41(2):136–136
Hosio S, Ferreira D, Goncalves J, Berkel NV, Luo C, Ahmed M, Flores H, Kostakos V (2016) Monetary assessment of battery life on smartphones. Proceedings of the 2016 CHI conference on human factors in computing systems. ACM, San Jose, pp 1869–1880
Khayyam Nekouei R, Pahlevani F, Golmohammadzadeh R, Assefi M, Rajarao R, Chen Y-H, Sahajwalla V (2019) Recovery of heavy metals from waste printed circuit boards: statistical optimization of leaching and residue characterization. Environ Sci Pollut Res 26(24):24417–24429
Kumar A, Holuszko M, Espinosa DCR (2017) E-waste: an overview on generation, collection, legislation and recycling practices. Resour Conserv Recycl 122:32–42
Li J, Zeng X, Stevels A (2015) Ecodesign in consumer electronics: past, present, and future. Crit Rev Environ Sci Technol 45(8):840–860
Lobontiu G (2013) Planned obsolescence and the product lifecycle. Appl Mech Mater 371:857–861
Ohnmacht T, Thi Thao V, Schaffner D, Weibel C (2018) How to postpone purchases of a new mobile phone? Pointers for interventions based on socio-psychological factors and a phase model of behavioural change. J Clean Prod 200:809–818
Pandebesie ES, Indrihastuti I, Wilujeng SA, Warmadewanthi I (2019) Factors influencing community participation in the management of household electronic waste in West Surabaya, Indonesia. Environmental Science and Pollution Research
Parajuly K, Kuehr R, Awasthi AK, Fitzpatrick C, Lepawsky J, Smith E, Widmer R, Zeng X (2019) Future E-waste scenarios. StEP (Bonn), UNU ViE-SCYCLE (Bonn) & UNEP IETC (Osaka)
Ravindra K, Mor S (2019) E-waste generation and management practices in Chandigarh, India and economic evaluation for sustainable recycling. J Clean Prod 221:286–294
Romer PM (2015) Mathiness in the theory of economic growth. Am Econ Rev 105(5):89–93
Skipworth S (2019) The lasting effect of a disposable society: missing the opportunity to repurpose … our team. Campus Secur Rep 16(4):8–8
Tansel B (2017) From electronic consumer products to e-wastes: global outlook, waste quantities, recycling challenges. Environ Int 98:35–45
Watkins J, Kitner KR, Mehta D (2012) Mobile and smartphone usein urban and rural India. Continuum: Journal of Media & Cultural Studies 26(5):685–697
Zink T, Maker F, Geyer R, Amirtharajah R, Akella V (2014) “Comparative life cycle assessment of smartphone reuse: Repurposing vs. refurbishment.” The International Journal of Life Cycle Assessment no. 19. doi: https://doi.org/10.1007/s11367-014-0720-7
Wilson GT, Smalley G, Suckling JR, Lilley D, Lee J, Mawle R (2017) The hibernating mobile phone: dead storage as a barrier to efficient electronic waste recovery. Waste Manag 60:521–533
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The author Dr. Anwesha Borthakur acknowledges the support provided by the European Union within the scope of the Marie Skłodowska Curie Individual Fellowship via Grant Agreement No. 844822.
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Borthakur, A., Singh, P. The journey from products to waste: a pilot study on perception and discarding of electronic waste in contemporary urban India. Environ Sci Pollut Res 28, 24511–24520 (2021). https://doi.org/10.1007/s11356-020-09030-6
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DOI: https://doi.org/10.1007/s11356-020-09030-6