PepsiCo Inc. has joined the NaturALL Bottle Alliance to advance the shared goal of creating beverage containers with a significantly reduced carbon footprint. The Alliance is a research consortium formed in 2017 by Danone, Nestlé Waters and bio-based materials development company Origin Materials (originmaterials.com) to accelerate development of innovative packaging solutions made with 100 percent sustainable and renewable resources.
Launched in March 2017, the Alliance uses biomass feedstocks, such as previously used cardboard and sawdust, so it does not divert resources or land from food production for human or animal consumption. The technology being explored represents a scientific breakthrough for the sector, and the Alliance aims to make it available to the entire food and beverage industry.
“Creating more sustainable packaging requires innovation through the value chain. Producing PET from sustainable bio-based sources that do not diminish food resources and are fully recyclable is a great example of such innovation and an important contributor to PepsiCo’s sustainable packaging program,” said Mehmood Khan, PepsiCo vice chairman and chief scientific officer.
“Through our Performance with Purpose agenda, PepsiCo is committed to reducing the carbon impact of packaging in line with our goal to reduce absolute emissions of greenhouse gases by 20 percent by 2030; bio-based PET has the potential to reduce significantly the carbon footprint of our PET bottles, a huge contribution to our efforts in this area. We are excited to add PepsiCo’s R&D capabilities to the Alliance and look forward to seeing what the combined efforts of the Alliance members can achieve," Khane added.
After producing samples of 80 percent bio-based PET at pilot scale in 2017, the Alliance has made further progress toward its goal of bringing its breakthrough technology to full commercial scale. It has notably selected a site in Sarnia, Ontario (Canada) (with the assistance of Bioindustrial Innovation Canada), and begun construction of its demonstration-scale plant.