Using choice architecture to exploit a university Distinct Urban Mine
Using choice architecture to exploit a university Distinct Urban Mine
There are widespread concerns regarding the potential future scarcity of ferrous and non-ferrous materials. However, there are already potentially rich reserves of secondary materials via high ownership of Electrical and Electronic Equipment (EEE) in economically-developed nations. Young people are particularly high consumers of EEE, thus university students and campuses may present an opportunity to harness this potential. University Distinct Urban Mines (DUM) may be used to exemplify how potential reserves of secondary metals may be exploited, and could contribute to the transition from a linear to a circular economy. This study aimed to evaluate small household appliances (SHA) DUM from a UK university, with the objectives to identify and quantify student households’ SHA ownership, WEEE recycling, stockpiling and discarding habits amongst student households, assess and evaluate the monetary potential of SHA DUM at UK level, and propose methods to exploit DUM for universities in the UK. To this purpose, a quantitative survey was undertaken to measure students’ ownership and discarding behaviour with respect to SHA. The amounts of ferrous and non-ferrous materials were then estimated and converted to monetary values from secondary materials market data to appraise the SHA DUM overall value. Thirty-five per cent of SHA are discarded in the general refuse. Broken personal care appliances (PCA) tend to be discarded due to hygiene and small size factors. When in working order, SHA tend to be equally reused, recycled or stockpiled. We conclude that a total of 189 tonnes of ferrous and non-ferrous materials were available via discarding or being stockpiled at the University of Southampton. Extrapolated to UK higher education level, discarded and stockpiled SHA represent a potential worth _USD 11 million. To initiate DUM exploitation within Higher Education campuses, we suggest improving users’ choice architecture by providing collection methods specific to broken SHA.
choice architecture, distinct urban mine, university students, WEEE, secondary materials, monetary potential
547-556
Pierron, Xavier
d863fe82-bf11-4076-bd48-10ab63e50373
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Shaw, Peter
935dfebf-9fb6-483c-86da-a21dba8c1989
Cleaver, Victoria
0bd2e028-9368-45c2-8554-90f8cd0eaef4
October 2017
Pierron, Xavier
d863fe82-bf11-4076-bd48-10ab63e50373
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Shaw, Peter
935dfebf-9fb6-483c-86da-a21dba8c1989
Cleaver, Victoria
0bd2e028-9368-45c2-8554-90f8cd0eaef4
Pierron, Xavier, Williams, Ian, Shaw, Peter and Cleaver, Victoria
(2017)
Using choice architecture to exploit a university Distinct Urban Mine.
Waste Management, 68, .
(doi:10.1016/j.wasman.2017.06.034).
Abstract
There are widespread concerns regarding the potential future scarcity of ferrous and non-ferrous materials. However, there are already potentially rich reserves of secondary materials via high ownership of Electrical and Electronic Equipment (EEE) in economically-developed nations. Young people are particularly high consumers of EEE, thus university students and campuses may present an opportunity to harness this potential. University Distinct Urban Mines (DUM) may be used to exemplify how potential reserves of secondary metals may be exploited, and could contribute to the transition from a linear to a circular economy. This study aimed to evaluate small household appliances (SHA) DUM from a UK university, with the objectives to identify and quantify student households’ SHA ownership, WEEE recycling, stockpiling and discarding habits amongst student households, assess and evaluate the monetary potential of SHA DUM at UK level, and propose methods to exploit DUM for universities in the UK. To this purpose, a quantitative survey was undertaken to measure students’ ownership and discarding behaviour with respect to SHA. The amounts of ferrous and non-ferrous materials were then estimated and converted to monetary values from secondary materials market data to appraise the SHA DUM overall value. Thirty-five per cent of SHA are discarded in the general refuse. Broken personal care appliances (PCA) tend to be discarded due to hygiene and small size factors. When in working order, SHA tend to be equally reused, recycled or stockpiled. We conclude that a total of 189 tonnes of ferrous and non-ferrous materials were available via discarding or being stockpiled at the University of Southampton. Extrapolated to UK higher education level, discarded and stockpiled SHA represent a potential worth _USD 11 million. To initiate DUM exploitation within Higher Education campuses, we suggest improving users’ choice architecture by providing collection methods specific to broken SHA.
This record has no associated files available for download.
More information
Accepted/In Press date: 18 June 2017
e-pub ahead of print date: 29 June 2017
Published date: October 2017
Keywords:
choice architecture, distinct urban mine, university students, WEEE, secondary materials, monetary potential
Identifiers
Local EPrints ID: 414461
URI: http://eprints.soton.ac.uk/id/eprint/414461
ISSN: 0956-053X
PURE UUID: 7f0fe6e3-ae77-401e-b237-343a8c08e983
Catalogue record
Date deposited: 29 Sep 2017 16:31
Last modified: 06 Jun 2024 01:43
Export record
Altmetrics
Contributors
Author:
Victoria Cleaver
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
