In today’s post we discuss the blockchain technology as an enabler for tracing recycling content of plastic compounds.
The use of
recycled plastics
Using
recycled plastics on your shop floor becomes more and more realty since end-consumer
and large brands as well as governments demand a certain amount of recycled
plastic in the end-use application. 20% of the global plastic waste is
currently recycled by the plastic manufacturing industry. 40% of packaging
waste is landfilled and according to the EU Green Deal, 50% of plastic
packaging should be recycled by 2025. Industries such as consumer products,
construction and automotive have ambitious targets to recycle their waste and
make high-value products out of it again. Challenges for manufacturing
companies occur in sourcing such recycled materials and to be sure that all
necessary information about the recyclates is available (end-uses; thermal/ heat
history).
Here new
technologies such as the blockchain technology can be an enabler to shade light
into grey supply chains.
Example of
Circulor
Circulor
offers solutions to track the origin of raw materials as well as the actual
flow of materials (production processes, transformations such as moulding, and
recycling). Using blockchain enabled technology, a digital twin is created
which then tracks the digital identity of the plastic's journey. This in turn
introduces visibility and safety along the supply chain.
What about
the plastics regrind?
Cascade
recycling is a possible way forward for plastics processing companies to ensure
a proper tracing of the used polymers. Usually virgin and regrind are mixed in
a ratio of 20% regrind and 80% virgin plastic. Mr. Bozelli lays out seven
problems one may deal with when handling with regrind mixing (level actually used,
degraded polymer in the regrind, broad of granule sizes in the regrind;
possibility of contamination; excessive fines in the regrind; tracking the
actual level of regrind in a plastic part; testing worst case situations using
regrind). In short – it can become a mess! To minimize such problems, Mrs.
Janicki, Mr. Groleau, and Mr. Bain, introduced the so-called cascade
regrinding.
How is it
done?
You can
start by storing the regrind from the first-pass of the virgin compound until
all of the virgin material is used. This is followed by running down 100%
regrind and in parallel store the second generation of regrind. Then you use
100% of the second generation and collect the third generation. This can be
done till the regrind is used up (Table 1).
 |
| Example of cascade regrind strategy based on 50% and 25% material remaining after each pass. |
This method
allows tracking the heat history of the regrind in an accurate way. In
addition, combining it with blockchain, the regrind history can be tracked too.
Altogether,
I believe we will see more of the blockchain enabled technology solutions for
handling recycling of plastics allowing to increase the chances of success on a
global scale.
Thanks
for reading and #findoutaboutplastics
Herwig
Further post on recycling and regrind:
Rule of Thumb for Plastics Injection Moulding: Usage of Regrind
nterested to talk with me about your plastic selection, sustainability, and part design needs - here you can contact me
Literature:
[1] https://www.azocleantech.com/article.aspx?ArticleID=1302
[2] https://www.circulor.com/total-press-release
[3] https://iopscience.iop.org/article/10.1088/1757-899X/1196/1/012021/pdf
[4] https://www.plasticstoday.com/managing-regrind-maximum-quality
[5] https://knowledge.ulprospector.com/1468/pe-regrinding-plastics/
I'm glad blockchain technology finds its way into plastics raw material and recycling supplier chain tracing - this should eventually make it more difficult for the bad boys to counterfeit
ReplyDeleteYes, totally agree - thanks for your comment! best regards, Herwig
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