of Experience
While plastics are highly valuable materials, plastic waste and its management represent a major global challenge, as only a small fraction of post-use plastics is currently recycled. A significant portion ends up in landfills, incinerators, or the natural environment, contributing to pollution and environmental contamination due to the chemical complexity of plastics and infrastructure systems originally designed for a different economic model.
We work to advance chemical recycling by developing technologies capable of transforming post-use plastics into valuable circular feedstocks ready for reuse. By enabling plastic circularity on a global and commercial scale, we aim to contribute to accelerating the transition toward a low-carbon and sustainable economy.
Climate change, energy challenges, economic pressures, and environmental pollution continue to create significant challenges for modern societies. We are fully committed to developing advanced technologies capable of recycling difficult and environmentally harmful plastic waste streams and converting them into valuable products through efficient and sustainable processes, contributing to a greener and more sustainable future. Our technology is designed to differentiate itself through its compact design, modular scalability, energy efficiency, environmentally responsible operation, continuous processing capability, automation, and remote monitoring functionality.
At Thermolysis, we aspire to convert plastic waste into valuable circular feedstocks that can be reused in the production of new plastics, fuels, and other industrial products. We challenge the traditional view that difficult-to-recycle plastics should simply be discarded, promoting instead the understanding that plastics are valuable resources capable of being recovered and reused through advanced recycling technologies.