Your search keyword '"Floriana La Marca"' showing total 2 results

1. PET and PVC Separation with Hyperspectral Imagery

Author

Monica Moroni, Alessandro Mei, Alessandra Leonardi, Emanuela Lupo, and Floriana La Marca

Subjects

recycling, plastic polymers, hyperspectral imaging, NIR, PET, PVC, Chemical technology, TP1-1185

Abstract

Traditional plants for plastic separation in homogeneous products employ material physical properties (for instance density). Due to the small intervals of variability of different polymer properties, the output quality may not be adequate. Sensing technologies based on hyperspectral imaging have been introduced in order to classify materials and to increase the quality of recycled products, which have to comply with specific standards determined by industrial applications. This paper presents the results of the characterization of two different plastic polymers—polyethylene terephthalate (PET) and polyvinyl chloride (PVC)—in different phases of their life cycle (primary raw materials, urban and urban-assimilated waste and secondary raw materials) to show the contribution of hyperspectral sensors in the field of material recycling. This is accomplished via near-infrared (900–1700 nm) reflectance spectra extracted from hyperspectral images acquired with a two-linear-spectrometer apparatus. Results have shown that a rapid and reliable identification of PET and PVC can be achieved by using a simple two near-infrared wavelength operator coupled to an analysis of reflectance spectra. This resulted in 100% classification accuracy. A sensor based on this identification method appears suitable and inexpensive to build and provides the necessary speed and performance required by the recycling industry.

Published

2015

2. PET and PVC Separation with Hyperspectral Imagery

Author

Emanuela Lupo, Monica Moroni, Floriana La Marca, Alessandro Mei, and Alessandra Leonardi

Subjects

Materials science, hyperspectral imaging, Analytical chemistry, recycling, Recycled products, Raw material, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, chemistry.chemical_compound, lcsh:TP1-1185, plastic polymers, NIR, PET, PVC, Electrical and Electronic Engineering, Polyvinyl Chloride, Process engineering, Instrumentation, Material recycling, Spectroscopy, Near-Infrared, Polyethylene Terephthalates, business.industry, Hyperspectral imaging, Reflectivity, Atomic and Molecular Physics, and Optics, Characterization (materials science), Polyvinyl chloride, chemistry, Homogeneous, business

Abstract

Traditional plants for plastic separation in homogeneous products employ material physical properties (for instance density). Due to the small intervals of variability of different polymer properties, the output quality may not be adequate. Sensing technologies based on hyperspectral imaging have been introduced in order to classify materials and to increase the quality of recycled products, which have to comply with specific standards determined by industrial applications. This paper presents the results of the characterization of two different plastic polymers--polyethylene terephthalate (PET) and polyvinyl chloride (PVC)--in different phases of their life cycle (primary raw materials, urban and urban-assimilated waste and secondary raw materials) to show the contribution of hyperspectral sensors in the field of material recycling. This is accomplished via near-infrared (900-1700 nm) reflectance spectra extracted from hyperspectral images acquired with a two-linear-spectrometer apparatus. Results have shown that a rapid and reliable identification of PET and PVC can be achieved by using a simple two near-infrared wavelength operator coupled to an analysis of reflectance spectra. This resulted in 100% classification accuracy. A sensor based on this identification method appears suitable and inexpensive to build and provides the necessary speed and performance required by the recycling industry.

Published

2015