NIR Optical Sorting: Difference between revisions

Revision as of 16:26, 11 August 2021

Near infra-red/NIR Optical Sorting systems use advanced infra-red sensors to effectively identify materials/feedstock of different wavelengths. The targeted materials are then ejected through the high-pressure valve to achieve the purpose of sorting^[1]. The first NIR sorting systems were used to process recyclable materials at the beginning of the 1990s and the technology has developed significantly in the past five years. These systems are frequently used in MRFs to streamline the sorting process, reduce labour costs, and increase the throughput to make recycling operations more efficient^[2]. NIR Optical Sorting systems are capable of processing packaging, papers, waste electrical equipment, residual waste (RDF), plastics and vehicle recycling^[3].

The Principle

The basic principle behind the NIR technology is measuring the wavelength that bounces off an object. The conveyor moves the material under a bright light which fires near infra-red wavelengths of light at the recyclables. Some of the wavelengths are absorbed while others are reflected by the material. The NIR sensors that are positioned in the last third of the conveyor record the characteristics of the wavelengths bounced back from the material. From there they are able to determine and target the different types of recyclables on the belt^[3].

The Process

The waste material is loaded onto an accelerator or conveyor to thin the recyclables out
The conveyor moves the material under a bright light which fires infra-red wavelengths of light towards it
A series of NIR sensors that are pointed at the conveyor record the distinct light signature/fingerprint that bounces back from the recyclables to identify what each piece of material is
A computer calculates the desired recyclable’s location and sends a blast of compressed air towards it to separate the item from the rest of the material
The specific recyclable detected and removed is then blown over a material splitter to separate it from the remaining flow of waste
Most of the sorting systems include a quality control step at the end to ensure the purity of the commodity being sorted^[2]

NIR Optical Sorter^[4]

Near Infra-Red/NIR Optical Sorting in the Plastics Recycling Process

NIR sorting is widely used to separate waste plastic streams by using automated equipment that sorts plastic recycling by NIR signature via transmission or reflection. Automatic sorters interface NIR sensing with air nozzles to sort plastic items of various resin compounds. The sensors are positioned above the high-speed conveyor and detect the unique wavelength signature of the desired polymers which subsequently get directed by air jets to their specific waste streams. Contaminants become the waste output or are directed for further processing^[5].

References

[1] NIR Optical Sorter

[ref1-2] 2.0 ^2.1 How Optical Sorting Systems Work for Recycling

[ref2-3] 3.0 ^3.1 Automatic Sorting of Recyclable Materials With NIR Technology

[4] NIR Optical Sorter Diagram

[5] Near Infra-Red (NIR) Sorting in the Plastics Recycling Process

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 [[Category:Technologies & Solutions]]
-Near infra-red/[[NIR Optical Sorting]] systems use advanced infra-red sensors to effectively identify materials/[[Feedstock|feedstock]] of different wavelengths. The targeted materials are then ejected through the high-pressure valve to achieve the purpose of sorting<ref>[https://www.hbsorter.com/solution/Nir-Optical-Sorter.html NIR Optical Sorter]</ref>. The first NIR sorting systems were used to process [[Recyclables|recyclable]] materials at the beginning of the 1990s and the technology has developed significantly in the past five years. These systems are frequently used in [[MRF]]s to streamline the sorting process, reduce labour costs, and increase the throughput to make [[Recycling|recycling]] operations more efficient<ref name="ref1">[https://crigler.com/how-optical-sorting-systems-work-for-recycling/  How Optical Sorting Systems Work for Recycling]</ref>. [[NIR Optical Sorting]] systems are capable of processing [[Packaging Waste|packaging]], [[Paper|papers]], [[Waste|waste]] electrical equipment, [[Residual Waste|residual waste]] ([[RDF]]), [[Plastic|plastics]] and vehicle [[Recycling|recycling]]<ref name="ref2">[http://www.wasteminz.org.nz/wp-content/uploads/Ernie-Beker.pdf Automatic Sorting of Recyclable Materials With NIR Technology]</ref>.
+Near infra-red/[[NIR Optical Sorting]] systems use advanced infra-red sensors to effectively identify materials/[[Feedstock|feedstock]] of different wavelengths. The targeted materials are then ejected through the high-pressure valve to achieve the purpose of sorting<ref>[https://www.hbsorter.com/solution/Nir-Optical-Sorter.html NIR Optical Sorter]</ref>. The first NIR sorting systems were used to process [[Recyclables|recyclable]] materials at the beginning of the 1990s and the technology has developed significantly in the past five years. These systems are frequently used in [[MRF]]s to streamline the sorting process, reduce labour costs, and increase the throughput to make [[Recycling|recycling]] operations more efficient<ref name="ref1">[https://crigler.com/how-optical-sorting-systems-work-for-recycling/  How Optical Sorting Systems Work for Recycling]</ref>. [[NIR Optical Sorting]] systems are capable of processing [[Packaging Waste|packaging]], [[Paper|papers]], [[Waste|waste]] [[WEEE|electrical equipment]], [[Residual Waste|residual waste]] ([[RDF]]), [[Plastic|plastics]] and vehicle [[Recycling|recycling]]<ref name="ref2">[http://www.wasteminz.org.nz/wp-content/uploads/Ernie-Beker.pdf Automatic Sorting of Recyclable Materials With NIR Technology]</ref>.
 ==The Principle==