We have developed an innovative patented technology designed to convert end-of-life plastics into valuable reusable resources. Our technology complements conventional mechanical recycling and energy recovery activities, supporting the development of a circular plastics economy. Capable of processing a wide spectrum of plastic waste streams, our technology is designed for global deployment, requires relatively low CAPEX and OPEX, operates with reduced energy consumption and low CO₂ emissions, and can be modularly scaled. The system is fully automated, continuously operating, and remotely monitored.
A continuously fed reactor enables the processing of larger volumes of discarded plastic with greater efficiency compared to batch operations by reducing operational footprint while increasing throughput, operational duration, and volumetric capacity. It also minimizes operational downtime associated with repetitive loading, cleaning, and reactor charging while providing enhanced process control and automation. Combined with multi-silo feedstock management, software optimization, and energy-efficient operation, the system is designed to improve productivity, operational efficiency, and product consistency while reducing energy consumption and CO₂ emissions.
Our technology focuses on minimizing energy consumption and optimizing operational efficiency in order to maximize the value recovered from recycled plastic waste streams.
Our modular design is a key differentiating factor that enables scalable deployment and supports the growing market demand for circular plastics solutions. Modularization enables large-scale manufacturing, simplified transportation, rapid onsite installation, and integration with existing waste management infrastructure. It also allows flexible capacity scaling to efficiently address varying local plastic waste volumes with improved cost effectiveness.
One of the key strengths of our technology is its ability to process a broad range of post-use plastic waste streams generated by consumers. Through the use of multiple silos, advanced software systems, and continuous remote monitoring, we optimize product quality across multiple feedstock compositions.
The company utilizes technologies designed with safety considerations for both plant personnel and surrounding local communities. The system incorporates components and processes designed in accordance with recognized safety and quality standards. In addition, the facilities are continuously monitored through sensors and remote systems, supported by regular onsite inspections conducted by our technical teams. Due to its design and operational characteristics, the system is intended to require a more streamlined regulatory framework compared to many conventional large-scale facilities performing similar activities.
A Thermolysis facility occupies approximately 150 m2 and is designed with relatively low capital and operating expenditure requirements. Due to its high level of automation, software optimization, and remote monitoring capabilities, the system requires limited onsite personnel.
Thermolysis is capable of processing a broad range of plastics that are not routinely recycled, including soft and flexible packaging materials, multi-layered and laminated plastics, as well as complex or contaminated plastic waste streams. Supported by advanced software systems, these feedstocks are managed and processed through multiple silos to optimize operational performance and achieve targeted product quality specifications.