Grain size dependent distribution of different plastic types in coarse shredded mixed commercial and municipal waste
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Abstract
The Waste Framework Directive regulates the recycling of waste in Europe. The definition of waste isspecified in different guidelines and regulations. Mixed Commercial Waste is waste from industry whichis not collected separately. Currently there is little known about its composition. Mixed Municipal Waste,
on the other hand, is household waste that cannot be attributed to any separately collected waste fraction (AdSLR, 2012). Both wastes are currently treated focussing on the generation of refuse-derived fuel rather than on the separation of recyclables (mainly performed for metals).
The purpose of this paper is to characterise the amounts of various plastic types contained in different grain sizes of two-dimensional and three-dimensional plastics sorting fractions of both waste types. Nine types of plastics were identified as potential recycling materials for which recycling processes as well as a market are available. Both wastes were shredded, sampled and sieved into nine grain size classes (GSC). Fractions coarser than 20 mm were sorted, generating a ‘plastics-2D’ and a ‘plastics-3D’ fraction among others. The two plastics fractions were further characterised as plastic types using a near-infrared sensor and a Fourier-transform infrared spectrometer. The results reveal a potential for plastic recycling through mechanical and feedstock recycling options for the examined wastes. Certain types of plastics, of certain
dimensionality, tend to come in certain grain sizes, which is essential for mechanical enrichment and discharge.
on the other hand, is household waste that cannot be attributed to any separately collected waste fraction (AdSLR, 2012). Both wastes are currently treated focussing on the generation of refuse-derived fuel rather than on the separation of recyclables (mainly performed for metals).
The purpose of this paper is to characterise the amounts of various plastic types contained in different grain sizes of two-dimensional and three-dimensional plastics sorting fractions of both waste types. Nine types of plastics were identified as potential recycling materials for which recycling processes as well as a market are available. Both wastes were shredded, sampled and sieved into nine grain size classes (GSC). Fractions coarser than 20 mm were sorted, generating a ‘plastics-2D’ and a ‘plastics-3D’ fraction among others. The two plastics fractions were further characterised as plastic types using a near-infrared sensor and a Fourier-transform infrared spectrometer. The results reveal a potential for plastic recycling through mechanical and feedstock recycling options for the examined wastes. Certain types of plastics, of certain
dimensionality, tend to come in certain grain sizes, which is essential for mechanical enrichment and discharge.
Details
Original language | English |
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Pages (from-to) | 388-398 |
Number of pages | 11 |
Journal | Waste management |
Volume | 103.2020 |
Issue number | 15 February |
DOIs | |
Publication status | E-pub ahead of print - 11 Jan 2020 |