Farrel Pomini, Lummus Team on Pyrolysis Technology
Mixer’s novel capabilities are said to be the key to success of partnership developing pyrolysis technology.
FARREL POMINI is partnering with Lummus Technology to develop a state-of-the-art plastic pyrolysis process.
The partnership is based on FARREL POMINI’s Continuous Mixing Technology (photo), the Farrel Continuous Mixer (FCM), which the companies say has been playing an essential role in a pyrolysis process for plastics developed by Lummus. The process takes streams of postindustrial and postconsumer waste and converts them into gas, pyrolysis oil and pitch product. The FCM melts feedstock resins and homogenizes them under specific temperature and pressure parameters before material enters the pyrolysis section of the process. The resulting pyrolysis oil products can be further processed in traditional refining and petrochemical assets, and turned into monomers for new plastics production.
The process’ unique vertical reactor design creates a continuous process that ensures the highest quality pyrolysis with the widest range of post-use feedstocks. With no exotic metallurgy required or solid waste to manage, the process is flexible, efficient and cost-effective.
Lummus is a leading licensor of process technologies in clean fuels, renewables, petrochemicals, polymers, gas processing and supplies life cycle services, catalysts, proprietary equipment and digitalization to customers worldwide.
Through its Green Circle business unit, Lummus provides economically and technically sound solutions to process solid wastes-containing plastics; process various renewable bio-based feedstocks to value-added chemicals, polymers and fuels; decarbonize refinery and petrochemicals assets; and expand production of blue hydrogen and biofuels.
“Our Continuous Mixing Technology enables this partnership to succeed thanks to the FCM’s two non-intermeshing rotors and novel features specific to a pyrolysis process,” explains Farrel President Paul Lloyd. “The mixer can intake low bulk-density feedstock, melt it with energy efficiency and is also built robustly to handle recycled streams with contamination.
“Our equipment is ideal for processing a wide variety of chemical and mechanical recycling applications,” he adds. “We are proud to be working with companies like Lummus, who are dedicated to developing real-world solutions to solving the plastic waste problem.”
Related Content
-
PHA Compound Molded into “World’s First” Biodegradable Bottle Closures
Beyond Plastic and partners have created a certified biodegradable PHA compound that can be injection molded into 38-mm closures in a sub 6-second cycle from a multicavity hot runner tool.
-
How to Extrusion Blow Mold PHA/PLA Blends
You need to pay attention to the inherent characteristics of biopolymers PHA/PLA materials when setting process parameters to realize better and more consistent outcomes.
-
Honda Now Exploring UBQ’s Biobased Material Made from Unsorted Household Waste
UBQ is aiming to expand its reach for more sustainable automotive parts as well as non-automotive applications.