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Thursday, 16 February 2017

Breakthrough in producing renewable car tires from trees, grasses

MINNEAPOLIS/ST PAUL, US: A team of researchers, led by the University of Minnesota (UMN), has invented a new technology to produce automobile tires from trees and grasses in a process that could shift the tire production industry toward using renewable resources found right in our backyards.
Conventional car tires are viewed as environmentally unfriendly because they are predominately made from fossil fuels. The car tires produced from biomass that includes trees and grasses would be identical to existing car tires with the same chemical makeup, colour, shape, and performance.
The technology has been patented by the UMN and is available for licensing through the UMN Office of Technology Commercialization.
The new study is published in the journal ACS Catalysis.
Authors of the study, include researchers from the UMN, University of Massachusetts Amherst, and the Center for Sustainable Polymers, a National Science Foundation (NSF)-funded centre at the UMN.
“Our team created a new chemical process to make isoprene, the key molecule in car tires, from natural products like trees, grasses, or corn. This research could have a major impact on the multi-billion-dollar automobile tires industry,” said Paul Dauenhauer, a UMN associate professor of chemical engineering and materials science and lead researcher of the study.
“Collaboration was really the key to this research taking biomass all the way to isoprene. This collaboration and synergy among researchers with different approaches and skills are really what we are trying to promote within the NSF Centers for Chemical Innovation Program,” said Carol Bessel, the deputy director of the chemistry division at NSF, which funds the Center for Sustainable Polymers.
Currently, isoprene is produced by thermally breaking apart molecules in petroleum that are similar to gasoline in a process called “cracking.” The isoprene is then separated out of hundreds of products and purified. In the final step, the isoprene is reacted with itself into long chains to make a solid polymer that is the major component in car tires.
Biomass-derived isoprene has been a major initiative of tire companies for the past decade, with most of the effort focused on fermentation technology (similar to ethanol production). However, renewable isoprene has proven a difficult molecule to generate from microbes, and efforts to make it by an entirely biological process have not been successful.
Funded by NSF, researchers from the Center for Sustainable Polymers have focused on a new process that begins with sugars derived from biomass including grasses, trees and corn. They found that a three-step process is optimised when it is “hybridised,” meaning it combines biological fermentation using microbes with conventional catalytic refining that is similar to petroleum refining technology.
The first step of the new process is microbial fermentation of sugars, such as glucose, derived from biomass to an intermediate, called itaconic acid. In the second step, itaconic acid is reacted with hydrogen to a chemical called methyl-THF (tetrahydrofuran). This step was optimised when the research team identified a unique metal-metal combination that served as a highly efficient catalyst.
The process technology breakthrough came in the third step to dehydrate methyl-THF to isoprene. Using a catalyst recently discovered at the UMN called P-SPP (Phosphorous Self-Pillared Pentasil), the team was able to demonstrate a catalytic efficiency as high as 90 percent with most of the catalytic product being isoprene. By combining all three steps into a process, isoprene can be renewably sourced from biomass.
“The performance of the new P-containing zeolite catalysts such as S-PPP was surprising. This new class of solid acid catalysts exhibits dramatically improved catalytic efficiency and is the reason renewable isoprene is possible,” said Dauenhauer.
“Economically bio-sourced isoprene has the potential to expand domestic production of car tires by using renewable, readily available resources instead of fossil fuels,” said Frank Bates, a world-renowned polymer expert and UMN Regents professor of chemical engineering and materials science. “This discovery could also impact many other technologically advanced rubber-based products.”
In addition to Professor Dauenhauer, researchers who were part of the study from the UMN were professors Michael Tsapatsis and Kechun Zhang, postdoctoral researchers Omar Abdelrahman, Dae Sung Park, Charles Spanjers and Limin Ren, and current student Katherine Vinter. University of Massachusetts Amherst professor Wei Fan and student Hong Je Cho were also part of the research team.
The invention of renewable tire technology is part of a larger mission of the Center for Sustainable Polymers, an NSF-funded Center for Chemical Innovation led by the University of Minnesota. Initiated in 2009, the CSP has focused on transforming how plastics are made and unmade through innovative research.
Researchers aim to design, prepare and implement polymers derived from renewable resources for a wide range of advanced applications.
© University of Minnesota News
Read More: Breakthrough in producing renewable car tires from trees, grasses

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