Capci Database for sustainable chemistry

Knowledge Base: Climate protection in the production and use of chemicals

Best Practice: Pyrolysis (Plastic waste and other waste)

Pyrolysis (Plastic waste and other waste)

The process of thermal pyrolysis can be used for the treatment of wastes. It uses heat and in some cases pressure to degrade long chain polymer molecules into shorter and to re-separate materials (e.g. certain metals) through melting. Up to 80 % liquid can be produced at temperatures ranging 300-500 ˚C. This process has a comparatively low environmental footprint in comparison to conventional fuel production. However, the feedstocks (plastics, waste mixtures) might need prior classification and purification to increase the fuel quality and its calorific value. The process is circular; the gases generted in the pyrolysis process can be used to energize the process itself. Pollutant components in the waste feedstock may not be completely destroyed, and some hazardous matter might be formed in the pyrolosis process. Hence, secondary measures for environment protection are inevitable.

Stage of Life Cycle
Products and Processes

GHG Reduction Potential

The carbon footprint of the pyrolysis of plastic waste has been proved to be 15-60% lower compared to business as usual scenarios considering a finished case study.

Solution Maturity Status

Well Established::

This technology has been operating for a number of years and is well-known/ successful in its industry or market.

Identification Keys / Drivers & Barriers

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