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NETL developing next generation of carbon capture technologies

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Global Mining Review,

National Energy Technology Laboratory (NETL) researchers have developed a method to custom-formulate low-cost membranes to more effectively separate carbon dioxide (CO2) from nitrogen in a high volume of flue gas. This ability to achieve both high selectivity and high permeability during post-combustion carbon capture operations is one of the most difficult problems facing membrane researchers today. The NETL group solved the challenge by chemically binding multiple membrane components with different critical properties into one high-performance material that can be easily scaled up to reduce the costs of large-scale carbon capture operations.

The work, which was recently featured in the journal Cell Reports Physical Science, builds upon the lab’s expertise developing mixed matrix membranes (MMMs), which combine sturdy polymers with inorganic crystalline particles that enhance selectivity and permeability. Prior work looked at integrating metal organic frameworks (MOFs) to create two-component MMMs, but this research takes the process a step further by fabricating three- and four-component MMMs, known as multicomponent mixed matrix membranes (McMMMs).

“Highly permeable membranes tend to have lower selectivity and vice versa. And very few membrane materials, even two-component MMMs, are capable of breaking the permeability-selectivity tradeoff,” NETL Research Scientist, Sameh K. Elsaidi, PhD, explained. “By formulating our membranes using multiple-component MMMs, we’ve opened a whole new realm of possibilities to enhance compatibility and gas separation performance.”

The research produced 10 different composite membranes featuring components selected for enhanced compatibility, permeability, selectivity and mechanical stability.

“Compatibility between the different components is especially important to the formulation,” Elsaidi added. “We optimised this interfacial compatibility by selecting MOFs with open metal centres that can strongly interact with the functional groups of the polymers, resulting in the formation of uniform, well-blended, defect-free MMMs.”

“We used density functional theory computations to show that the interactions between the polymer functional groups and the open metal centres were quite strong,” commented Janice Steckel, PhD, who also worked on the project. “We believe these strong interactions between the metal centre and the polymer minimises phase separation and contributes to the great separation performance of these composites.”

As part of this work, the NETL team also estimated the cost of carbon capture using each of the 10 custom-formulated membranes, with the lowest cost being US$55/t, which is a substantial cost savings from the current average of US$65/t, and represents a significant step towards meeting the US Department of Energy’s goal of US$30/t CO2 by 2030.

“While this research only encompassed 10 composite membranes, the approach we have developed has opened the door to a new exploration route for myriad MMMs with unique formulas and new state-of-the-art performance,” Elsaidi said.

This is not the first time the NETL team has tackled the permeability-selectivity tradeoff. Elsaidi and the other researchers in NETL’s Functional Materials Team have also recently developed a highly permeable carbon capture membrane through a dual-layer process.

“We believe that the membranes we are developing here at NETL represent the next generation of post-combustion carbon capture technologies,” Elsaidi said. “The work we’re doing is making a real difference in bringing down the cost of carbon capture, and that means a stronger energy foundation for the nation and better environmental sustainability.”

The research team included NETL researchers Sameh Elsaidi, PhD, Surendar Venna, PhD, Ali Sekizkardes, PhD, Janice A. Steckel, PhD, James Baker, PhD, John Baltrus, PhD, and David Hopkinson, PhD, along with Mona Mohamed, PhD, from the University of Pittsburgh.

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