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, Adoption immédiate, car les paramètres nécessaires au calcul des indicateurs font actuellement l'objet d'un suivi -indicateurs « EEE mis sur le marché par habitant », « Taux de conformité des départements à l'objectif de collecte des DEEE, Taux de plastiques pouvant contenir des retardateurs de flamme bromés dans les DEEE collectés

, Adoption immédiate par certaines catégories, éléments et/ou pour communiquer un résultat global de la chaîne des DEEE -indicateurs « Eco-participation par EEE mis sur le marché », « Eco-participation par habitant, Coût total par DEEE traité » et « Coût total par habitant

, Adoption à moyen terme, car, outre l'adoption du calcul des déchets générés avec l'outil « WEEE Calculation Tool » il faut un meilleur suivi de la collecte des déchets électroniques par type de produit (UNU-keys) -indicateurs « Taux de collecte basé sur l'approche générée par les DEEE » et « Taux de traitement basé sur l

, Adoption à moyen terme parce que les données requises sur la composition des produits ne sont pas suivies actuellement -indicateurs « Taux de collecte par élément cible », « Taux de recyclage par élément cible », « Taux de traitement pondéré par l'impact évité », « Opportunité d'impact environnemental évité, Taux de recyclage pondéré par l'impact économique

, en fonction du niveau d'évaluation : 1. Efficacité macroscopique du système : il présente une vue d'ensemble des performances de la chaîne des DEEE -indicateurs « EEE mis sur le marché par habitant », « Taux de collecte basé sur l'approche générée par les DEEE », « Taux de conformité des départements à l'objectif de collecte des DEEE », « Taux de réutilisation par catégorie de DEEE », « Taux de recyclage par catégorie de DEEE », « Taux de traitement basé sur l'approche des DEEE générés », « Eco-participation par EEE mis sur le marché, En ce qui concerne l'utilisation potentielle des indicateurs, nous avons identifié trois groupes qui regroupent les indicateurs de tous types (techniques, économiques, environnementaux et de criticité)

, Efficacité mésoscopique et microscopique du système : elle présente des informations plus détaillées sur les matériaux, composants et éléments -indicateurs « Taux de collecte par élément cible

, Avantages du traitement des déchets électroniques : ceux-ci évaluent les avantages potentiels de la filière -indicateurs « Opportunité d'impact environnemental évité

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, Equation 4-1. EEE placed on the market per inhabitant

, Equation 4-2. Collection rate based on the WEEE generated approach

, Collection rate per target element

, Equation 4-5. Rate of plastics that may contain brominated flame retardants in WEEE collected, p.80

, Equation 4-6. Reuse rate by the official schemes per WEEE category

, Recycling rate by the official schemes per WEEE category, pp.4-7

, Treatment rate (recycling, reuse, energy recovery or disposal) based on WEEE generated approach

, Recycling rate per target element

, Equation 5-1. Environmentally weighted-based treatment rate

, with the increase of WEEE official schemes treatment

, Chapter

, Equation 6-1. Visible fee per EEE POM per category

, Equation 6-2. Visible fee per inhabitant per category

, Equation 6-3. Total costs per WEEE collected by the official schemes per category

, Equation 6-4. Total costs per WEEE treated by the official schemes per category

, Equation 6-5. Visible fee per inhabitant per WEEE category

, Equation 6-6. Economic weighted-based collection rate for target elements in a WEEE category, p.172

, Equation 6-7. Economic weighted-based recycling rate for target element in a WEEE category, p.173

, Equation 6-8. Economic value of the complementary flows per WEEE category

, Equation 7-1. Economic importance according to the EC methodology

, Supply risk according to the EC methodology

, Criticality weighted-based recycling rate

, Potential contribution for apparent consumption per target element

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R. Horta-arduin, C. Charbuillet, F. Berthoud, and N. Perry, Life cycle assessment of end-of-life scenarios: tablet case study, Proceedings Sardinia 2017. Sixteenth International Waste Management and Landfill Symposium, vol.10, 2017.

R. Horta-arduin, J. Martínez-leal, G. Grimaud, C. Charbuillet, S. Pompidou et al., Scope Definition on End-of-Life Chain Performance Assessment: Recycling Rate and French E-Waste Chain Case Study, Proceedings of EcoDesign 2017 International Symposium, vol.8, 2017.

R. Horta-arduin, C. Charbuillet, F. Berthoud, and N. Perry, LCA of recycling chains: influence of transport modelling. Proceedings of VI Congresso Brasileiro sobre Gestão do Ciclo de Vida, pp.471-477, 2018.

R. Horta-arduin, G. Grimaud, C. Charbuillet, B. Laratte, and N. Perry, Plastics in WEEE screens: difficulties and opportunities to improve the recycling rate, Proceedings of 16th International Conference on Environmental Science and Technology -CEST2019, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02298642

R. Horta-arduin, C. Charbuillet, F. Berthoud, and N. Perry, Indicateurs de la filière DEEE, Presses des Mines -Les enjeux d'écoconception associés à l'économie circulaire : Etat des besoins terrain et des solutions développées -EcoSD Annual Workshop, 2018.