)--Suntory Group today announced that, as a crucial step toward its aim to use 100% sustainable PET bottles globally by 2030 and eliminate all petroleum-based virgin plastic from its global PET supply, the company has successfully created a prototype PET bottle made from 100% plant-based materials. The prototype has been produced for the company’s iconic Orangina
brand in Europe along with its best-selling bottled mineral water brand in Japan, Suntory Tennensui
. This announcement marks a breakthrough after a nearly decade-long partnership with the US-based sustainable technology company Anellotech.
PET is produced using two raw materials, 70% terephthalic acid (PTA) and 30% mono ethylene glycol (MEG). Suntory’s prototype plant-based bottle is made by combining Anellotech’s new technology, a plant-based paraxylene derived from wood chips, which has been converted to plant-based PTA, and pre-existing plant-based MEG made from molasses which Suntory has been using in its Suntory Tennensui
brand in Japan since 2013.
“We’re delighted with this achievement, as it brings us one step closer to delivering this sustainable PET bottle to the hands of our consumers,” said Tsunehiko Yokoi, Executive Officer of Suntory MONOZUKURI Expert Ltd. “The significance of this technology is that the PTA is produced from non-food biomass to avoid competition with the food chain, while MEG is also derived from non-food grade feedstock.”
This innovation is an additional step towards achieving www.suntory.com
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, and http://www.anellotech.com
) is a sustainable technology company focused on commercializing the innovative production of cost-competitive renewable chemicals and fuels from non-food biomass or waste plastics. Its patented Bio-TCat™ technology is an efficient thermal catalytic process for converting biomass into benzene, toluene and xylene, which are chemically identical to their petroleum-based counterparts. The process has been extensively demonstrated with loblolly pine feedstocks at Anellotech’s TCat-8® pilot plant in Silsbee, Texas. Engineering work to design the first commercial plant is underway by Anellotech and its R&D, engineering and licensing partners IFPEN and Axens.
The Bio-TCat™ platform is now being leveraged for Plas-TCat™, a development-stage process technology aiming to convert mixed waste plastics into commodity chemicals such as olefins and aromatics, the primary chemicals used to make plastic packaging and other products.