We have developed a novel patented technology to convert end-of-life plastics. Our technology complements traditional mechanical recycling efforts and energy recovery activities, to help build a circular economy of plastic. Capable of processing a wide spectrum of plastics, our technology is easily produced and dispatched globally, has low OPEN and CAPEX, consumes low energy and produces low CO2, it can be scaled up on a modular basis, it is fully automated and continuously operating, while monitored remotely.

A continuously fed reactor converts more discarded plastic and at a greater efficiency than a batch process because it reduces the footprint while increasing rate, duration, and volumetric capacity. It also removes operational downtime such as repetitive loading, cleaning, or reactor charging and provides superior control and automation of the process. These coupled with multi-silo / multi feedstock quality mix and software optimization, along with autonomy in energy consumption, deliver higher output and efficiency and lower energy consumption and CO2 emissions.

Our technology focuses on minimizing energy usage and optimising operational efficiency, to convert plastics back into a resource, in a way that maximises the value for the quantity plastics recycled.

Our design allows for modularization and that is a key differentiator to meeting the large demand in the marketplace for circular plastics. Modular design allows for mass-manufacture, easy transportation, quick onsite installation, integration with existing waste management infrastructures. Modular design also allows capacity scalability to meet locally and hence at lower cost different plastic waste quantity streams.

Processing a wide variety of plastic that consumers put in their trash cans is one of the pillars of our technology. With our multiple silos, AI software, and continues remote monitoring we guarantee optimal quality of produced product from a multiple types of feedstock.

The company uses technology which is safe both for the employees and the local citizens living near the plant. The technology is using parts and processes that are certified for safety and quality. Moreover, the technology is monitored through sensors and cameras on a continuous basis from a command centre and we undertake physical inspections with our staff twice a month. Due to its manufacturing characteristics it needs minimum regulatory authorisations compared to facilities undertaking similar tasts.

Thermolysis plant expands over 150 square meters and it has small capital fund and operating fund requirements, as is a relatively small plant and demands limited personnel as it is full automated, AI software and remote monitored.

Thermolysis can process most types of plastics that are not routinely recycled, such as: soft and flexible packaging (e.g., films), multi-layered and laminated plastics (e.g., crisp packets), complex or even contaminated plastic (e.g., food trays). Managed by an AI software, feedstock from these materials are mixed and processed through different silos to deliver targeted output product quality.