Packaging People and Leaders

CEO of Packaging Company on Bioplastics

Staeger Packaging’s Ian Jamie examines biobased materials and shares research conducted in collaboration with the NNFCC.

This article was published on and written by the Managing Director of a Packaging company

Throughout its life-cycle, a typical plastic will save seven times more greenhouse gas emissions (for example, through material light weighting or avoided food waste) than is emitted during its production.

On average 15-20% of materials used in the construction of cars are plastics, saving around 5% in emissions compared to the use of alternative materials.

Plastic packaging weighs just 10% of traditional packaging.

This weight reduction significantly reduces transport emissions. If plastic packaging was not used to preserve food and drink, retailers would make at least 50% more truck journeys within the EU.

Plastic also helps preserve food, minimising food waste.

Without plastic packaging, the environmental impact of producing packaging, wastage of perishable products and transporting goods would increase.

However despite the many positive attributes of plastic, it does have significant negatives namely:

Greenhouse gas emissions resulting from production and incineration after use;

the degradation of the natural environment due to plastic pollution.

In response to these negatives, Staeger commissioned a report from NNFCC to look at an array of polymers produced from renewable raw materials (biobased polymers), to see if they would firstly be suitable for our use and secondly, to establish whether by using them it would be better for the environment.

This report was part funded by the European Union.

The NNFCC are experts in biobased products including polymers.

Staeger currently uses recycled PET made from 60-70% post-consumer waste.

It serves the food, confectionery and toiletry Industries with high quality cartons and tubes.

This report studied nine potential biobased and/or biodegradable plastics, of which four were identified as potential replacements for PET for use in clear plastic packaging: Polylactic acid (PLA), Cellulose acetate (CA), Biobased Polyethylene Terephthalate (PET) and Polyethylene Furanoate (PEF). A note of caution here: all four are at present significantly more expensive than the cost of recycled PET.

To ensure the environmental impact of these products is lower than traditional plastic, life cycle assessments can be undertaken.

These assess an array of environmental impacts including those associated with human health, environmental health and resource use.

As biobased plastics often use crop feedstocks, environmental impacts such as acidification and eutrophication tend to be larger than those of petrochemical origins. Non-renewable energy use and GHG emissions, however, tend to be lower.

Environmentally, biobased PET (30% biobased content) and PLA were both found to be better than petroleum PET, though neither were as beneficial as recycled PET. They do however have widespread commercial production and availability.

LCAs were not available for CA or PEF. PEF is a new polymer yet to be commercialised, it has improved physical properties and is 100% biobased. The environmental impacts are envisaged to be lower than petroleum PET (but not recycled PET).LCA information prior to commercial release is anticipated.

CA and PLA are both compostable, PLA industrially and CA home and industrially.

Though possible, the recycling of these polymers is currently not established.

The properties of these polymers are poor compared with PET and both have difficulty folding for rigid packaging. Biobased PET and PEF are effectively “drop-in” products for petroleum PET.

Both can be recycled in current PET recycling facilities and processed in current production facilities. Their durability therefore also remains the same and if lost to the environment would contribute to the accumulation of plastic pollution!

In conclusion, continuing use of recycled PET with high recycled content represents the best alternative to virgin petroleum PET vis a vis the four biopolymers studied, as dictated by life cycle assessment results.

This then , in theory, seems to be the best route to take and provided the leeching out into the environment is minimised via, better education, a uniform countrywide council collection service, clear labelling and much more high-quality UK/European wide recycling (rather than exporting to the Far East) , it will continue to be the case.

However, biopolymers that break down in the natural environment are still of interest to us and we will continue to explore them.

Ian Jamie is managing director at Staeger Packaging




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