Trade News | August 2, 2023

Media

BASF publishes Life Cycle Assessment (LCA) study on polyamides from chemically recycled or renewable raw materials in mozzarella packaging

  • Panel-reviewed LCA study comparing different formats and raw materials in a packaging life cycle
  • Flexible multi-layer packaging using sustainable feedstock with highest reduction in CO2 emissions
  • Investigation of different additional scenarios on climate change impact

Today, BASF has published its new Life Cycle Assessment (LCA) study on the environmental impact of a mozzarella packaging using various alternative raw materials in the production of food-grade plastics. These raw materials are attributed to the plastics via a certified mass balance approach and the study compares a flexible multi-layer packaging with the same packaging based on fossil feedstock. Additionally, a fossil-based rigid mozzarella packaging was examined. The study has been reviewed by a panel of three independent experts.

“This exercise helps us to better understand the environmental impacts of both the packaging format as well as the raw material source within a mozzarella packaging’s entire life cycle”, said Dr. Paul Neumann, New Business Development & Sustainability Polyamides Europe, BASF.

The packaging format plays an important role with regard to its environmental performance: the rigid tray packaging system which consists of a mono polypropylene tray, combined with a multi-layer lid film, showcases the highest potential environmental impact in nearly all categories compared to flexible multi-layer packaging. This illustrates the possible beneficial effects of flexible packaging by using significantly less raw material and thus producing less packaging waste.

“With our partners Südpack and Sphera, we additionally examined the usage of different sustainable feedstocks in the flexible multi-layer mozzarella packaging, be it BASF’s sustainable mass-balanced polyamides Ultramid® Ccycled®, produced by using chemically recycled feedstock, or Ultramid® BMBcert, produced by using renewable feedstock, in the mix with polyethylene,” explained Neumann. The results demonstrate that significantly lower environmental impacts, primarily resulting in a reduction of CO2 emissions, can be achieved by using flexible multi-layer packaging with a large share of chemically recycled or renewable raw materials.

In addition, various technical and methodical scenarios, such as the usage of green electricity and chemical or mechanical recycling at the product’s end of life have been investigated.

More details on the study which followed the guidance of and is consistent with the international standards for Life Cycle Assessment (ISO 14040:2006 and 14044:2006) and for Carbon Footprint of Products (ISO 14067:2018) can be found at Life cycle assessment (LCA) mozzarella packaging.

For a global review of LCA studies on chemical recycling (2003-2023) with a focus on the carbon footprint of pyrolysis, see Life cycle assessment (LCA) for ChemCycling®.

 

About BASF

At BASF, we create chemistry for a sustainable future. We combine economic success with environmental protection and social responsibility. More than 111,000 employees in the BASF Group contribute to the success of our customers in nearly all sectors and almost every country in the world. Our portfolio comprises six segments: Chemicals, Materials, Industrial Solutions, Surface Technologies, Nutrition & Care and Agricultural Solutions. BASF generated sales of €87.3 billion in 2022. BASF shares are traded on the stock exchange in Frankfurt (BAS) and as American Depositary Receipts (BASFY) in the United States. Further information at www.basf.com.

 

P-23-279

Heike Scheurer
Communications Monomers
Flexible multi-layer packaging using sustainable feedstock with highest reduction in CO2 emissions
Flexible multi-layer packaging using sustainable feedstock with highest reduction in CO2 emissions
PreviewJPG (343.98 KB)
Last UpdateAugust 2, 2023