Another aspect of this project, meanwhile, involves recovering and repurposing used fishing nets, including those made from polyamide (nylon) and polyethylene. This involves sourcing them from various channels such as fishing communities, ports, marine clean-up initiatives, and specialized recycling programs. The group collects the nets in question after they have been discarded or damaged beyond repair.
AIMPLAS and Proplast are in charge of this aspect of the EcoeFISHent project. Polyethylene nets, studied by AIMPLAS, are known for their toughness and chemical resistance. Polyamide nets, the focus of PROPLAST, are valued for their durability and strength, making them common in fishing gear. Both types currently are recycled by melting the plastic to create items such as containers, pipes, and more fishing gear.
One of the project’s targets involves developing skin-care products formulated with intermediates such as omega-3 and collagen derived from marine sources. So, Agostinis said, “it is natural to synergize this development with upcycling processes for fishing nets. This natural synergy motivated AIMPLAS and Proplast to prioritize sustainable solutions for cosmetic packaging, starting with utilizing other marine by-products like discarded fishing nets.”
Such nets are a significant issue when it comes to health of the ocean. The Food and Agriculture Organization estimates that at least 640,000 tonnes of fishing gear (also known as ghost gear) are lost or abandoned in the ocean every year, which negatively impacts fish stocks and the entire ecosystem.
WWF Italy, in association with the Marine Protected Area of Portofino, are working to map and remove the ghost gear, when feasible, in collaboration with a scuba diving association. This collected nylon and PE waste is then reused as secondary raw materials.
Efficient logistics and collection are crucial to maximizing recovery rates of ghost nets and minimizing environmental impact. Agostinis notes that recycling technologies must be capable of handling both polyamide and polyethylene nets effectively, ensuring they can be transformed into usable products without compromising their properties and quality.