Südpack adopts fact-based life cycle assessments for flexible packaging
Südpack has adopted its EcoTrace LCA service to evaluate the environmental impact of its products throughout the value chain.
By means of various scenarios and projections, EcoTrace makes it possible to compare different packaging concepts, make objective decisions regarding optimal packaging solutions, achieve ambitious environmental and sustainability goals, and expand and optimise product reporting based on reliable LCA data.
According to a study by WWF Germany, the volume of plastic waste could be reduced by around 8% by eliminating unnecessary packaging and introducing improved designs. Up to 365 kilotonnes, or 9%, of all single-use plastics could be replaced with materials that have a smaller ecological footprint. Furthermore, phasing out multipolymer materials would boost closed-loop mechanical recycling yields by 185 kilotonnes, or approximately 30%.
“By incorporating chemical recycling as a viable recovery option, the potential environmental benefits increase manifold as carbon is retained in the material loop indefinitely,” explains Carolin Grimbacher, managing partner of Südpack.
EcoTrace enables Südpack to analyse the entire life cycle of its own products, as well as customer concepts, in terms of their environmental impact. These calculations are based on a cradle-to-grave approach, which takes not only greenhouse gases (CO2e) into account, but also factors like fossil resource consumption, eco- and human-toxicity, as well as various energy sources and end-of-life options, within defined system limits. This is an important approach because around 10% of the environmental impact of Südpack’s flexible films occurs at the end of their life cycle (assuming an average recycling rate of 48% and a thermal recovery rate of 52%).
In collaboration with Sphera, Südpack recently conducted an LCA study in accordance with ISO 14040/44 for its Flow Pack PurePP solution – to assess the potential environmental impact of these innovative high-performance films from the company’s Pure-Line range. The materials in question are flexible film laminates used to produce flow packs for various applications, primarily in the food sector. They are made from PP and, due to their mono-material structure, have a recyclability rate of 92% according to the cyclos-HTP institute.
For the end-of-life analysis, a current German recycling mix served as the baseline scenario and was compared with the results from an analysis of 100% mechanical recycling, 100% chemical recycling, and 100% thermal recovery. Additionally, the study examined the impact of different energy sources used in production, as well as the incorporation of recycled content into the granules.
In the baseline scenario, 1m² of Flow Pack PurePP generates 246g CO₂e/m² over its entire life cycle. As expected, incinerating the Flow Pack at the end of its life results in the highest emissions, at 293g CO₂e/m², while mechanical recycling reduces this by approximately 50g CO₂e/m². Therefore, by using mechanical or chemical recycling as an alternative to thermal recovery, the ecological footprint is significantly improved. Even with chemical recycling, the difference compared to thermal recovery is around 50g CO₂e/m². If renewable electricity is used, CO2e emissions are reduced even further – by more than 5%. Moreover, mechanical recyclate performs better than chemically recycled input materials, as the latter require more energy during production.
The results show that significant environmental impacts occur throughout the life cycle of Flow Pack PurePP, highlighting the need for fact-based assessments to make informed decisions on sustainability criteria, Südpack said.
Another benefit of EcoTrace is that the results of these studies can serve as a foundation for fact-based product development and optimisation based on various sustainability criteria, and can also be shared with customers when needed. EcoTrace makes it fast and easy to integrate the datasets into the customer’s “LCA for Experts” software.