Traditional mechanical recycling faces several challenges; most notably, certain types of plastics that are hard to recycle using current processes. Globally, the OECD estimates that only about 9% of all plastics produced are currently recycled. While the first step needs to be investment in municipal collecting and sorting, we see a huge opportunity that advanced recycling can help address.

We’re working on solutions that can break down hard-to-recycle plastics to form brand-new building blocks that can create a certified circular life cycle for both commercial and consumer plastics.

Why are some plastics hard to recycle? Traditional mechanical recycling has difficulty removing oils, grease or food waste, so many food and oil-based product containers have to be discarded, usually to a landfill. Another factor is the packaging itself. When packaging has multiple layers of different types of plastics and other materials, it can’t go through the traditional mechanical recycling process.

For example, a chip bag may have a plastic outer layer and an aluminum inner layer. This combination of materials can’t be effectively separated by traditional machines. Advanced recycling solves these issues by breaking down materials to their molecular level. These “refreshed” molecules then become the raw materials used to make brand-new plastics and other valuable products. It truly gives a new life to plastic waste.

Advanced recycling can help society recycle a greater share of the products we use every day. It’s a solution that can improve recycling rates for plastic waste and support a more circular economy while also providing the opportunity for lower relative emissions. And it can be scaled and replicated across the globe to increase the amount of plastic material that can be made into new products.

Here’s how it works.

Collection

Alongside companies like TenCate Grass and Ahold Delhaize, we’re helping to collect hard-to-recycle plastics. In the future, we hope the collection of all types of plastic could be a part of everyday recycling pickups.

Sorting

Today, plastics are sorted for either mechanical recycling or landfill. Advanced recycling opens a new path for difficult-to-recycle plastics like chip bags and even artificial turf to be diverted to plastic recovery facilities.

Shredding & Processing

Once diverted from landfill, the plastics are sorted, shredded and processed to meet the physical and chemical specifications for mechanical or advanced recyclers. Plastics that are more difficult to recycle are sent to advanced recycling facilities.

Rebuilding

At an advanced recycling facility, the plastics are converted into liquid and gas molecules - the raw feedstock needed to make valuable new products, like ExxonMobil’s certified-circular polymers.

New Plastics

These building blocks can be used to create a variety of new products, and we plan to have 30,000 metric tons of processing capacity by the end of 2022 and 500,000 metric tons (1 billion pounds) globally of advanced recycling capacity by the end of 2026.

Circular Plastics

Certified-circular plastics are used in a variety of products, such as food-grade packaging. Once used, the products can be collected, sorted and recycled, helping to meet society’s goals for a more circular economy.

Advanced recycling can create a certified-circular loop for plastics that can be used again and again.

Form to Function Scroll to see the process

Advanced recycling can create a certified-circular loop for plastics that can be used again and again.

  • icon/text-size
You May Also Like

Explore More

Unlocking the potential of advanced recycling: Natalie Martinez
Unlocking the potential of advanced recycling: Matthew McConomy