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ExxonMobil Collaborates On New Material to Enhance Carbon Capture Technology

Gasoil News - Published on Mon, 27 Jul 2020

Image Source: ExxonMobil University of California Carbon Capture Technology
Scientists from ExxonMobil, University of California Berkeley and Lawrence Berkeley National Laboratory have discovered a new material that could capture more than 90 percent of CO2 emitted from industrial sources, such as natural gas-fired power plants, using low-temperature steam, requiring less energy for the overall carbon capture process. Laboratory tests indicate the patent-pending materials, known as tetraamine-functionalized metal organic frameworks, capture carbon dioxide emissions up to six times more effectively than conventional amine-based carbon capture technology. Using less energy to capture and remove carbon, the material has the potential to reduce the cost of the technology and eventually support commercial applications.

By manipulating the structure of the metal organic framework material, the team of scientists and students demonstrated the ability to condense a surface area the size of a football field, into just one gram of mass – about the same as a paperclip – that acts as a sponge for CO2. Results of the research were published today in the international peer-reviewed journal, Science.

ExxonMobil’s team, led by senior research associate Simon Weston, along with UC Berkeley’s professor Jeffrey Long and his team of faculty and students have been working collaboratively for eight years to develop this potential carbon capture solution that demonstrates stability in the presence of water vapor, without oxidation, allowing carbon dioxide to be captured from various sources, under a number of conditions.

Additional research and development will be needed to progress this technology to a larger scale pilot and ultimately to industrial scale.

The research successfully demonstrated that these hybrid porous metal-organic materials are highly selective and could capture more than 90 percent of the CO2 emitted from industrial sources. The materials have much greater capacity for capturing carbon dioxide and can be regenerated for repeated use by using low-temperature steam, requiring less energy for the overall carbon capture process.

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Posted By : Yogender Pancholi on Mon, 27 Jul 2020
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