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Recyclable

Plas-TCat™, Bio-Tcat™, and Tex-TCat™

Anellotech has developed innovative technologies to recycle mixed plastics, fabrics, and sustainably produce bio-derived chemicals and fuels. Plast-TCat™ focuses on the chemical recycling of plastics, converting large volumes of mixed waste plastics directly into valuable chemicals. This technology offers a novel route to olefins and aromatics from low-value plastic waste feedstocks, capable of processing all major plastics using proprietary catalysts and a fluid bed reactor-regenerator system. It can potentially reduce CO2 emissions by up to 50% compared to monomers from fossil resources.

Biopure™ Technology for polyester recycling

Break down of discarded polyester into raw material for new plastic and new products developed by Protein Evolution. This technology aims to reduce polyester waste piling up in landfills and incinerators due to the complexity of the material. Protein Evolution is leading the way in transitioning the chemicals industry towards a low-carbon, circular economy by transforming plastic waste management production through its Biopure™ technology. Biopure™ process outputs are indistinguishable from the fossil-fuel-derived molecules used to produce polyester today.

Eco-Friendly Cleaning Products

Blueland manufactures sustainable household products using environmentally responsible ingredients that are both recyclable and compostable. The company offers a range of products including hand soap, laundry detergent, spray cleaners, and personal care items in plastic-free tablets. These tablets are added to warm or hot water in reusable bottles, shakers, and tins, eliminating the need for single-use plastics like polyvinyl alcohol (PVA and PVOH).

Cycora® -- Generated Polyester from End-of-Life Textiles

Ambercycle specializes in recycling polyester from end-of-life textiles, aiming to create a closed-loop system where polyester can be continuously regenerated and reused. Cycora® is made by breaking polyester textiles into their essential components into a series of reactors. Once separated into base materials, additives such as dyes and finishes are removed further to purify the raw material at the molecular level. The purified regenerated PET is reconstructed into virgin-grade pellets and can be seamlessly integrated into existing supply chains.