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Critical appraisal of recycling indicators used in European criticality exercises and circularity monitoring

Luis A. Tercero Espinoza

2021Resources Policy18 citationsDOIOpen Access PDF

Abstract

Recycling indicators are an important part of criticality assessments and circularity reporting. This paper examines the definitions of recycling indicators used in EU reporting, compares and contrasts them with definitions from the literature, and probes their fitness for use in European criticality studies and circularity reporting. In particular, it is shown that the end-of-life recycling input rate (EoLRIR, the material-centric indicator used both in criticality assessments and circular economy monitoring) is inappropriate on its own for measuring progress in the circular economy. The reason is that its value strongly depends on the lifetime of products and on demand growth, obscuring the efficacy of the waste management system, which is more directly reflected by the end-of-life recycling rate for individual elements. Furthermore, the differences in definition of EoLRIR used in EU reporting vs. the literature can be misleading and impedes direct comparison with other regions. The data basis is also key in appropriately measuring recycling performance. Since the EU has undertaken significant efforts to improve the information basis for recycling indicators, a progression of estimates of recycling indicators between the last two criticality exercises is reported and discussed. Finally, a critical review of the current status of the EoLRIR is presented, leading to recommendations for better use and communication of recycling indicators in European documents on the topics of raw materials criticality and circularity monitoring.

Topics & Concepts

CriticalityCircular economyCritical appraisalEuropean unionEnvironmental economicsComputer scienceKey (lock)Risk analysis (engineering)Environmental scienceEnvironmental resource managementBusinessEconomicsEcologyComputer securityPhysicsPathologyAlternative medicineEconomic policyBiologyNuclear physicsMedicineRecycling and Waste Management TechniquesExtraction and Separation ProcessesEnvironmental Impact and Sustainability