Our method addresses 60% of the world’s plastic waste by using four different forms of recycled plastics as pyrolysis feedstocks: ♹ PP, ♶ LDPE, ♹ HDPE, and ♹ PS. Chokmoth collaborates with sustainability-minded firms, COSO hubs, and recycling groups along the plastics supply chain to recover old plastics that would otherwise be discarded and disposed of in landfills, lowering the risk of these plastics leaking into the environment. Our supply collaborations also help businesses reach their waste reduction and zero-waste-to-landfill targets, which benefits Chokmoth, our suppliers, and the environment.

Tyres are constructed of more than 200 different materials. However, fully established separation methods do exist. Our aim is to isolate the different components to offer products with a high added value. We need to recover used tyres in one way or another, and the energy recovery requirements of our technology works mean that they can absorb large volumes. Used tyres will be pyrolyzed to address the increasing need for innovative raw materials in the petrochemical, marine, and aviation industries.

Our process requires the use of oily waste such as slops and sludges from industrial plants and refineries. This provides a sophisticated solution for efficient industrial waste management. Oil sludge, a hazardous industrial waste, can harm land and water resources if not treated appropriately. Our equipment uses high-temperature, oxygen-free technology to transform oil sludge into pyrolysis oil. When compared to conventional treatment solutions, this system provides a more comprehensive and environmentally friendly oil sludge management. This meets the objectives of “reduction, resourcing, and harmlessness”.

Pyrolysis is an established method that has been utilized in the chemical and plastics industries for over 50 years. In the pyrolysis process, plastic is heated in a closed environment without oxygen, and the plastic molecule is then transformed back into its original molecular building blocks. Pyrolysis is not the same as incineration since it does not burn polymers because the confined system lacks oxygen.
Our innovative technology and leading process design enhance known pyrolysis principles, ensuring energy economy, increasing yields, and delivering unparalleled product quality. We employ just heat without oxygen at atmospheric pressure to break down the lengthy chains of the used plastic molecule into shorter chains in the form of gas. This gas is then cooled to separate its components, which are predominantly circular liquids. The circular liquid is then sold to our offtake partners, who utilize it directly, without further processing, to replace fossil-based sources in the manufacturing of fresh virgin-quality circular plastic.