German chemical firm BASF SE is to invest EUR16 million into Pyrum Innovations AG, a technology company specialised in the pyrolysis of waste tyres, headquartered in Dillingen/Saar, Germany. With the investment, BASF will support the expansion of Pyrum’s pyrolysis plant in Dillingen and the further roll out of the technology.
Pyrum is currently running a pyrolysis plant for end-of-life tyres that can process up to 10,000 tonnes of tyres/year. Until the end of 2022, two additional production lines will be added to the existing plant. BASF will uptake most of the pyrolysis oil and process it into new chemical products by using a mass balance approach as part of its ChemCycling project. The resulting products will mainly be for customers from the plastics industry who are looking for high-quality and functional plastics based on recycled materials.
Furthermore, Pyrum intends to build additional tyre pyrolysis plants together with interested partners. The collaborative set-up will accelerate the path towards the use of Pyrum’s unique technology in serial production. Future investors in the technology can have the certainty that the pyrolysis oil produced will be taken up by BASF to produce high-performance chemical products. The co-operation will thus serve to close the loop for post-consumer plastic waste. Waste tyres fall within the definition of post-consumer plastic waste according to DIN EN ISO 14021:2016-07.
BASF and Pyrum anticipate that production capacities of up to 100,000 tonnes of pyrolysis oil derived from waste tyres could be built up within the next years together with additional partners.
BASF will use the pyrolysis oil from end-of-life tyres as an additional raw material source next to oil from mixed plastic waste, the use of which is the long-term focus of the ChemCycling project.
Products made from pyrolysis oil by using a mass balance approach have the exact same properties as products manufactured with primary fossil resources. In addition, they have a lower carbon footprint than conventional products. This is the conclusion of a Life Cycle Assessment (LCA) analysis, carried out by the consulting company Sphera on behalf of BASF. Among others, the LCA analysis could show this for the production of polyamide 6 (PA6), a plastics polymer which is, for example, used in the production of high-performance components for the automotive industry. One ton of PA6 produced with tyre pyrolysis oil from Pyrum under a mass balance approach emits 1.3 tonnes less CO2 compared with one ton PA6 produced with fossil feedstock. The lower emissions result from avoiding the incineration of the end-of-life tyres.