Engineers identify improved membranes to capture CO2 at coal-fired power plants

A computational modeling method developed at the University of Pittsburgh's Swanson School of Engineering may help to fast-track the identification and design of new carbon capture and storage materials for use by the nation's coal-fired power plants. The hypothetical mixed matrix membranes would provide a more economical solution than current methods, with a predicted cost of less than $50 per ton of carbon dioxide (CO2) removed.

Engineers identify improved membranes to capture CO2 at coal-fired power plants

A computational modeling method developed at the University of Pittsburgh's Swanson School of Engineering may help to fast-track the identification and design of new carbon capture and storage ...

Tue 8 Jan 19 from Phys.org

Engineers Identify Improved Membranes to Capture CO2 at Coal-fired Power Plants, Wed 9 Jan 19 from Laboratory Equipment

Engineers identify improved membranes to capture CO2 at coal-fired power plants, Tue 8 Jan 19 from ScienceDaily

Pitt, NETL engineers identify improved membranes to capture CO2 at coal-fired power plants

A computational modeling method developed at the University of Pittsburgh and NETL may help to fast-track the identification and design of new carbon capture and storage materials for use by ...

Tue 8 Jan 19 from Eurekalert

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