Research leading to groundbreaking green propane production method
Mohammad Asadi partners with SHV Energy to distribute electrolyzer device that can convert carbon dioxide into propane in a way that is economically viable and scalable.
A paper recently published in Nature Energy based on pioneering research done at Illinois Institute of Technology reveals a promising breakthrough in green energy: an electrolyzer device capable of converting carbon dioxide into propane in a manner that is both scalable and economically viable.
As the United States races toward its target of net-zero greenhouse gas emissions by 2050, innovative methods to reduce the significant carbon dioxide emissions from electric power and industrial sectors are critical. Mohammad Asadi, assistant professor of chemical engineering at Illinois Tech, spearheaded this groundbreaking research.
“Making renewable chemical manufacturing is really important,” says Asadi. “It’s the best way to close the carbon cycle without losing the chemicals we currently use daily.”
What sets Asadi’s electrolyzer apart is its unique catalytic system. It uses inexpensive, readily available materials to produce tri-carbon molecules—fundamental building blocks for fuels like propane, which is used for purposes ranging from home heating to aviation.
To ensure a deep understanding of the catalyst’s operations, the team employed a combination of experimental and computational methods. This rigorous approach illuminated the crucial elements influencing the catalyst’s reaction activity, selectivity, and stability.
A distinctive feature of this technology, lending to its commercial viability, is the implementation of a flow electrolyzer. This design permits continuous propane production, sidestepping the pitfalls of the more conventional batch processing methods.
“Designing and engineering this laboratory-scale flow electrolyzer prototype has demonstrated Illinois Tech’s commitment to creating innovative technologies. Optimizing and scaling up this prototype will be an important step toward producing a sustainable, economically viable, and energy-efficient carbon capture and utilization process,” says Advanced Research Projects Agency-Energy Program Director Jack Lewnard.
This innovation is not Asadi’s first venture into sustainable energy. He previously adapted a version of this catalyst to produce ethanol by harnessing carbon dioxide from industrial waste gas. Recognizing the potential of the green propane technology, Asadi has collaborated with global propane distributor SHV Energy to further scale and disseminate the system.
“This is an exciting development which opens up a new e-fuel pathway to on-purpose propane production for the benefit of global users of this essential fuel,” says Keith Simons, head of research and development for sustainable fuels at SHV Energy.
Illinois Tech Duchossois Leadership Professor and Professor of Physics Carlo Segre, University of Pennsylvania Professor of Materials Science and Engineering Andrew Rappe, and University of Illinois Chicago Professor Reza Shahbazian-Yassar contributed to this work. Mohammadreza Esmaeilirad (Ph.D. CHE ’22) was a lead author on the paper.
Disclaimer: “Research reported in this publication was supported by the National Science Foundation under Award Number 2135173, the Advanced Research Projects Agency-Energy under Award Number DE-AR0001581, and SHV Energy. This content is solely the responsibility of the authors and does not necessarily represent the official views of the National Science Foundation, the Advanced Research Projects Agency-Energy, or SHV Energy.”
Mohammad Asadi, “Imidazolium Functionalized Transition Metal Phosphide Catalysts for Electrochemical Carbon Dioxide Conversion to Ethanol,” National Science Foundation; Award Number 2135173
Mohammad Asadi, “Direct Conversion of Flue Gas to Value-Added Chemicals Using a Carbon-Neutral Process,” Advanced Research Projects Agency-Energy; Award Number DE-AR0001581
Journal: Nature Energy
DOI: 10.1038/s41560-023-01314-8
Method of Research: Experimental study
Subject of Research: Not applicable
Article Title: Imidazolium-functionalized Mo3P nanoparticles with an ionomer coating for electrocatalytic reduction of CO2 to propane
Article Publication Date: 17-Aug-2023
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