04 October 2016
04 October 2016
Covestro says that the action radius of carbon dioxide as a chemical building block for plastics may soon be significantly expanded.
Covestro is collaborating with partners in industry and research to explore how CO2 can also be used as a component in insulating foam and other products of the plastics industry. The three-year “Dream Resource” research project was launched for this purpose, with funding from the German Federal Ministry of Education and Research (BMBF).
“We are now taking the next step on the way to establishing carbon dioxide as an alternative raw material in the chemical and plastics industry,” said Project Coordinator Dr. Christoph Gürtler, Head of Catalysis Research at Covestro. “With CO2 as a carbon source, we can increasingly dispense with traditional, fossil sources such as petroleum. After successfully incorporating it in a key precursor to flexible foam, we are now tackling the next challenge.”
In the new project, Covestro explains that a process is to be developed for producing plastic components with a CO2 content of at least 20 percent. The remainder would come from the petroleum derivative ethylene oxide (EO), which is very difficult to handle. Laboratory tests have already demonstrated that it is possible to react CO2 with EO. “However, technical implementation still requires a lot of research,” explained Gürtler.
CO2 and ethylene oxide could be used, for example, to make the building blocks (polyols) for rigid polyurethane foam, a common insulating material in buildings and refrigeration systems. Another possibility is moulded foam for automobile seats. CO2-EO compounds could also feasibly be used to produce additives.
Managed by Covestro, the project also has members from the academic community: RWTH Aachen University and Berlin University of Technology. The Dream Resource consortium further includes the companies PSS Polymer Standards Service, Puren and BYK Additives & Instruments.
In the Production Dreams project, which has been running for some time, Covestro and its partners have already developed the technology required to use CO2 in elastomers. These are solid but mouldable plastics used in articles such as hoses and seals.
Another process already is in the implementation stage: It is about producing polyols for flexible polyurethane foam based on CO2 and the reactant propylene oxide. Covestro commissioned a new production plant for this technology at its Dormagen site, outside Cologne, Germany in June. The new foams are initially intended for use in mattresses and upholstered furniture. The first products are scheduled for market launch in the near future.
The Metyx Hungary factory, located in Kaposvár, has recently expanded its warehousing facilities, adding an additional 3,024 m2 of enclosed storage space for composite technical fabrics, packaging and FRP tooling.
After the collapse of a drinking water pipeline in downtown Amsterdam, the Netherlands, Insituform was contracted to reline a close to 100 year old pipe underneath one of the canals. Water was restored successfully within five days, with minimal impact on traffic and the environment.
Composites Evolution, Bercella and Element Materials Technology (Element) have successfully completed the development and testing of a composite cantilever support for rail passenger seating.