Ecocyclic, a Texas-based environmental technology leader, announced a strategic partnership with enespa technologies us llc, the U.S. subsidiary of Swiss-based enespa ag, to build a cutting-edge chemical recycling facility in Winnie, Texas. With construction already underway, the plant is slated to be operational by Fall 2025, pioneering the transformation of plastic waste into sustainable resources.
At full capacity, the facility will process up to 10 metric tons per day of ISCC PLUS-certified, pre-sorted polyolefin plastic waste. Through advanced chemical recycling, this waste will be converted into pyrolysis oil鈥攁 sustainable, circular feedstock capable of replacing crude oil in the production of virgin-quality plastics. 鈥淭hrough this partnership, we are laying the foundation for a truly circular economy in the plastics sector,鈥 said Naeem-Atiq Sadiq, CEO of Ecocyclic. 鈥渆nespa brings world-class recycling technology, and Ecocyclic delivers market insight, local expertise, and innovation powered by AI.鈥
Ecocyclic will install its first state of the art plant in Winnie, Texas with planned future facilities nationwide. 鈥淧artnering with Ecocyclic gives us the opportunity to bring our technology to one of the most critical markets in the world,鈥 said Ben Richters, CTO of enespa. 鈥淭heir advanced AI capabilities, strategic insight, and robust local infrastructure perfectly complement enespa鈥檚 engineering expertise, creating a powerful synergy for scalable impact.鈥
The Winnie facility will carry ISCC PLUS certification, ensuring environmental credibility and full traceability of the recycled output鈥攔einforcing Ecocyclic鈥檚 mission to deliver transparent and verifiable carbon reduction solutions. This Texas initiative marks the first of five planned installations across the U.S., as Ecocyclic leads the charge toward a net-zero future through scalable recycling innovation. 鈥淭his is more than a plant鈥攊t鈥檚 a blueprint for responsible industry,鈥 Sadiq said. 鈥淥ur goal is to transform waste management and turn low-value plastic into high-value, clean energy feedstocks.鈥