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Packaging glass contained in the heavy residual fraction refused by Portuguese Mechanical and Biological Treatment plants

Authors :
Nilmara Dias
M. Teresa Carvalho
Nuno Belo
Angela Máximo
Source :
Resources, Conservation and Recycling. 85:98-105
Publication Year :
2014
Publisher :
Elsevier BV, 2014.

Abstract

Mechanical and Biological Treatment (MBT) is an important strategy to manage Municipal Solid Waste (MSW) in Europe. The presence of recyclable materials on MSW depends on different factors such as inefficiencies in the Municipal Solid Waste collecting schemes and to the low level of citizenship environmental education. Among other products, MBT plants produce a residual fraction, named here as heavy residual fraction, that contains a significant amount of packaging glass which in Portugal is currently landfilled. This material is not recycled because it is heavily contaminated with other materials, preventing its processing in Material Recovery Facilities (MRF). In this paper the characterization, including particle size and composition, of the residual fraction of six Portuguese MBT plants is presented. The relevant variables that determine the heavy residual fraction characteristics were identified. It was observed that the MBTr particle size distribution is different and depends mainly on the place on the flowsheet where the MBTr exits the process, which is determined by the type of biological process and by the aperture of the last screen where the product passes through. The content in glass varies from 33 to 83%. These values are mainly related with the upstream glass sorting and with the efficiency of the recovery of the organic fraction which is the glass main contaminant. The second main contaminant is “stones”. The quantity of glass contained in this product in all the plants that will be in operation in Portugal in 2014 was estimated. The work shows that if all the 48,000 of glass could be recovered the Portuguese recycling rate would increase by 4.4%.

Details

ISSN :
09213449
Volume :
85
Database :
OpenAIRE
Journal :
Resources, Conservation and Recycling
Accession number :
edsair.doi...........11aab4275fa758a6fa76b584fcc62731