Implementation of circular economy in the management of municipal solid waste in an Italian medium-sized city: A 30-years lasting history

•The evolution of performances of the waste management system is described.•Plenty of detailed data on waste collection over 30 years are presented.•Material flows have been tracked: 72 waste treatment facilities were identified.•Criticalities of material recovery indices are highlighted through exa...

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Bibliographic Details
Published in:Waste management (Elmsford) 2021-05, Vol.126, p.821-831
Main Authors: Bertanza, Giorgio, Mazzotti, Stefano, Gomez, Franco Hernan, Nenci, Mario, Vaccari, Mentore, Zetera, Saverio Francesco
Format: Article
Language:English
Subjects:
Access-protected containers
Door to door collection
Mass flow
Performance indicators
Recovery
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Summary:•The evolution of performances of the waste management system is described.•Plenty of detailed data on waste collection over 30 years are presented.•Material flows have been tracked: 72 waste treatment facilities were identified.•Criticalities of material recovery indices are highlighted through examples.•The case study may represent a model for other realities. The Circular Economy model is gaining attention as a key factor for boosting sustainable development. Reducing the consumption of raw materials, as well as increasing the amount of recycled waste, are the current challenges the municipal solid waste management system is called for. In this study, the evolution of the municipal waste management strategies in the city of Brescia was analysed, covering a period of 30 years. The results obtained by a) progressively extending the separate collection with street containers, b) building a Waste to Energy plant, and c) moving to a door to door collection system, were assessed via numerical indicators and mass balances. In order to highlight the complexity of the system, the waste flow, from collection to the achievement of the “end of waste” attribute, was followed. Separate collection with street containers came to a saturation percentage around 40%. The realization of the incineration plant eliminated the direct disposal of waste to landfills. With the introduction of the new collection system, the separately collected waste increased up to over 73%, the per capita amount of collected waste decreased from 685.3 kg/(in y) to 579.6 kg/(in y), and a significant reduction of recyclable materials in the unsorted waste was gained. In the paper, these achievements and their affecting factors are analysed. Moreover, criticalities in the calculation of material recovery indices due to the complexity of the system (72 transformation sites were identified) are discussed.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2021.04.017