Material system analysis: Functional and nonfunctional cobalt in the EU, 2012–2016

Material system analysis: Functional and nonfunctional cobalt in the EU, 2012–2016

A comprehensive data inventory of the current materials cycle in industry and society is crucial for an informed discussion and for decision‐making on the supply of raw materials. Particularly, it is key to understand how these materials are functionally and nonfunctionally recycled, and enable the...

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Bibliographic Details
Published in:Journal of industrial ecology Vol. 26; no. 4; pp. 1277 - 1293
Main Authors: Godoy León, María Fernanda, Matos, Cristina T., Georgitzikis, Konstantinos, Mathieux, Fabrice, Dewulf, Jo
Format: Journal Article
Language:English
Published: New Haven Wiley Subscription Services, Inc 01-08-2022
Subjects:
batteries
Cobalt
Decision making
Dependency
Garbage collection
Imports
Indicators
industrial ecology
life cycle
material flow analysis
Materials recovery
Raw materials
Recycling
Supply
Supply chains
Systems analysis
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Summary:A comprehensive data inventory of the current materials cycle in industry and society is crucial for an informed discussion and for decision‐making on the supply of raw materials. Particularly, it is key to understand how these materials are functionally and nonfunctionally recycled, and enable the assessment of recycling indicators needed for the monitoring of circular economy. In this context, a material system analysis (MSA) of cobalt for the European Union (EU) from 2012 to 2016 is presented and discussed. Detailed results are provided for the year 2016, and the evolution of the flows over time is presented from 2012 to 2016. In addition, six indicators are calculated to characterize the cobalt cycle. In 2016, the EU28 embedded around 24,000 metric tons (t) of cobalt in manufactured products, and 33,700 t were put into use. The main losses of the system are due to nonselective collection of postconsumer waste (disposed), and nonfunctional recycling of old scrap. From the years analyzed, it was possible to detect a shift in the imports; the import of primary material decreased more than 99% between 2012 and 2016, and the import of semiprocessed and processed materials increased around 31% in the same period. This indicates that after 2012, the EU became more dependent on imports in downstream stages of the supply chain. One way to decrease this dependency is to establish higher collection targets, and to establish recycling targets based on the recovery of single materials, in order to decrease the amount dissipated through nonfunctional recycling.
Bibliography:The presented data are also part of a separate technical report (Matos, Ciacci, et al., 2020). The views expressed in the article are personal and do not necessarily reflect an official position of the European Commission.
Funding information
Editor Managing Review: Wei‐Qiang Chen
Special Research Fund (BijzonderOnderzoeksfonds—BOF) from Ghent University under grant agreement number BOF.DOC.2017.0041.01
ISSN:1088-1980
1530-9290
DOI:10.1111/jiec.13281