Textile Recycling Technologies, Colouring and Finishing Methods

Automated sorting and fibre identification

Yüklə 3,7 Mb.

Pdf görüntüsü

səhifə	47/56
tarix	28.11.2023
ölçüsü	3,7 Mb.
	#167974

1 ... 43 44 45 46 47 48 49 50 ... 56

bmi

Automated sorting and fibre identification:
Textile waste sorting is currently performed
manually. Accurate knowledge and identification of chemical and structural composition of the
textile waste stream, whether applied to mechanical or chemical recycling routes is necessary for
efficient processing, and quality of feedstock and outputs.
178
The development of efficient and
reliable automated sorting of textiles, as well as fibre identification will greatly complement and
contribute the development of fibre-to-fibre recycling technologies and continue to support the
requirements of mechanical recyclers for other material outputs. Various optical sorting
technologies, namely spectroscopic-based, have been explored and are currently being developed
for commercial operations. Some examples in development are highlighted:
Company/Group
Technology
Valvan
(Belgium, Netherlands, UK)
FIBERSORT Near-infrared (NIR) spectroscopy, industrial scale
sorting (Speed: 1 piece per second)
179
IVL Swedish Environmental
Research Institute
(Sweden)
Automated sorting technology based on optical sensors that detect
different fibre materials, similar technology used to sort packages
180
Telaketju
(Finland)
REISKAtex®: NIR spectroscopy, small scale identification and
sorting equipment system.
178,181
HKRITA
(Hong Kong)
Automated sorting system (residual metal detection, colour detection
algorithm) with robotics AGV and intelligent conveyor control
(Speed: 2 seconds per sample)
139,182

Textile Recycling Technologies, Colouring and Finishing Methods | Le
49
Information and traceability systems:
The increased traceability and knowledge of materials
and chemicals used in textiles and apparel during production processes (with adequate protection
of confidential information among stakeholders), would contribute to safer chemistry and
practices, extending into product safety and greater efficiency in subsequent recycling processes.
With the various information management systems, testing and certification systems, coupled
with globally dispersed industry players that operate under diverse regulations, information
availability of materials and chemicals of concern may be limited or incomplete. Traceability
systems integrated in the full supply chain, and development of supporting technologies (i.e.
DNA, QR codes, RFID tagging) are emerging as long-term initiatives.
20

Funding:
Cost is a significant barrier for various industry players and emerging technologies.
Funding is needed to expand existing technologies, or support collection schemes that enable the
implementation and growth of textile recycling systems. For new technology solutions to scale
beyond the prototype stage, public-private financing structure could help attract private funds
and launch a new technology solution.
140

Yüklə 3,7 Mb.

Dostları ilə paylaş:

1 ... 43 44 45 46 47 48 49 50 ... 56