Comments
davereeck t1_j0aotm5 wrote
The new method applies electricity instead of heat. This does 2 things:
- Controls the rate of hydrochloric acid production, making the process safer.
- Uses process by-products in the recycling of other plastics.
(I think, I might have missed other benefits). Basically, electro-processing PVC makes it safer and cheaper to recycle it and other plastics.
Still sounds like it makes a nasty soup of toxins though.
Miguel-odon t1_j07iez1 wrote
PVC is incredibly useful, but also very not-good for us. When burned, it produces dioxins and dioxin-like-compounds, which ends up in our food.
FuturologyBot t1_j06gklo wrote
The following submission statement was provided by /u/chrisdh79:
From the article: Plastics are incredibly useful but dangerously problematic. Our planet is drowning in unrecycled plastic, and we need better ways to recycle to help it recover.
In theory, all plastics can be recycled, but the sad reality is that the vast majority never get recycled. This is due to the cost of collecting, cleaning, and sorting the thousands of types of plastics before they begin their recycling processes. Even though global recycling rates are barely at 5%, current projections show that global plastic waste is on course to triple by 2060. Polyvinyl chloride, commonly known as PVC, is the third most-produced plastic in the world and one of the most difficult to recycle. The high versatility of PVC has led to its use in a wide variety of products, including hospital equipment, plumbing, electrical wiring, packaging, and even clothing. Unfortunately, less than a quarter of 1% of post-consumer PVC is currently recycled.
Thanks to a research team at the University of Michigan, there is now a promising new technique to recycle PVC.
The team at the University of Michigan led by Danielle Fagnani and Anne McNeil has discovered a way to use a component of the PVC that previously made recycling incredibly difficult by improving the method's efficiency. The components that make PVC so difficult to recycle are the various additives it can contain called plasticizers. Plasticizers are compounds added in the production process to make PVC more flexible and durable. Fagnani stated in a recent interview, “PVC usually contains a lot of plasticizers, which contaminate everything in the recycling stream and are usually very toxic. It also releases hydrochloric acid really rapidly with some heat.”
The most detrimental of the plasticizers are phthalates, which are highly toxic to humans and known to negatively impact our hormonal systems. When plastics are recycled by adding heat, the phthalates leach out. The method discovered by Fagnani and her team uses the toxic phthalates to decrease the energy input required and make the process more efficient overall.
Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/zlp2kt/researchers_discover_a_way_to_recycle_one_of_the/j06dqnj/
Some-Ad9778 t1_j0b25wl wrote
Even the plastic that could be recycled now isn't because it's not economical, we need to end single use plastic and limit our consumption
Vegasus88 t1_j0b143x wrote
Great another article on how to recycle plastic but nothing about stopping the production of it.
chrisdh79 OP t1_j06dqnj wrote
From the article: Plastics are incredibly useful but dangerously problematic. Our planet is drowning in unrecycled plastic, and we need better ways to recycle to help it recover.
In theory, all plastics can be recycled, but the sad reality is that the vast majority never get recycled. This is due to the cost of collecting, cleaning, and sorting the thousands of types of plastics before they begin their recycling processes. Even though global recycling rates are barely at 5%, current projections show that global plastic waste is on course to triple by 2060. Polyvinyl chloride, commonly known as PVC, is the third most-produced plastic in the world and one of the most difficult to recycle. The high versatility of PVC has led to its use in a wide variety of products, including hospital equipment, plumbing, electrical wiring, packaging, and even clothing. Unfortunately, less than a quarter of 1% of post-consumer PVC is currently recycled.
Thanks to a research team at the University of Michigan, there is now a promising new technique to recycle PVC.
The team at the University of Michigan led by Danielle Fagnani and Anne McNeil has discovered a way to use a component of the PVC that previously made recycling incredibly difficult by improving the method's efficiency. The components that make PVC so difficult to recycle are the various additives it can contain called plasticizers. Plasticizers are compounds added in the production process to make PVC more flexible and durable. Fagnani stated in a recent interview, “PVC usually contains a lot of plasticizers, which contaminate everything in the recycling stream and are usually very toxic. It also releases hydrochloric acid really rapidly with some heat.”
The most detrimental of the plasticizers are phthalates, which are highly toxic to humans and known to negatively impact our hormonal systems. When plastics are recycled by adding heat, the phthalates leach out. The method discovered by Fagnani and her team uses the toxic phthalates to decrease the energy input required and make the process more efficient overall.