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Revised eco profile for NatureWorks’ Ingeo biopolymer

Revised eco profile for NatureWorks’ Ingeo biopolymer, NatureWorks, Asia packaging, USA, bioplastics
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NatureWorks has releases the first findings of its updated eco profile for its naturally advanced family of Ingeo biopolymers, which demonstrates that the production of Ingeo polymer emits fewer greenhouse gases and consumes less non-renewable energy compared to commonly used plastics such as polystyrene (PS), polyethylene terephthalate (PET), and polycarbonate (PC).

The revised profile is based on the latest version of PE INTERNATIONAL’s GaBi LCA software and database, and follows the ISO 14040/44.

The eco profile of a polymer gives information such as the total energy and raw materials consumed, and the total emissions to air, water, and soil from the cradle to the finished polymer pellet. An eco profile is an essential input to any full life cycle assessment (LCA) conducted on consumer products made from that polymer.

“Our most recent eco profile in 2010 was calculated using the methodology, the modeling software, and core database in place at the time,” said Erwin Vink, Environmental Affairs Manager, NatureWorks. “The same approach was used by such industry organizations as Plastics Europe since the beginning of the nineties to calculate the eco profiles for the fossil based polymers. However, LCA tools and databases have progressed in the past four years, and we decided it was time to recalculate the eco profile based on those advancements.

“While the Ingeo manufacturing process remains the same, what has changed are the LCA software modeling tools and extensively broadened LCA databases and datasets, which give us the most up-to-date and accurate picture on greenhouse gas emissions and other commonly used indicators in LCA.”

NatureWorks teamed with PE International, one of the world’s leading LCA consultants, basing the update on PE´s GaBi6.3 modeling software. PE International subsequently reviewed the methodology used, the final modeling work as well as the use of upstream data by NatureWorks, to determine the 2014 eco profile and found that the company’s LCA process was scientifically and technically valid and consistent with ISO 14040 and 14044 standards for conducting LCAs.

The most recent recalculated eco profiles for Ingeo, polypropylene (PP), PS, PET, and PC show smaller overall greenhouse gas emissions for each polymer compared to previous European industry data. The ranking of the polymers from lower overall environmental impact to higher overall impact remained the same.

Cradle-to-gate greenhouse gas emissions

Revised eco profile for NatureWorks’ Ingeo biopolymer, NatureWorks, Asia packaging, USA, bioplastics

The chart on the right (click to enlarge) compares the greenhouse gas emissions (including biogenic carbon uptake in the case of Ingeo) for Ingeo manufacture with the emissions resulting from the manufacture of a number of different polymers produced in the US and Europe using the latest available industry assessments for each. The numbers represent the totals for the first part of the life cycle of the polymers, starting with fossil or renewable feedstock production up to and including the final polymerization step.

The new Ingeo eco profile information is expected to be available shortly in industry life cycle inventory databases. In the near future, LCA practitioners interested in accessing the full eco profile will be able to download it in such file formats as xls and GaBi.

 

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