Energy Efficient Direct Air Capture System for High Purity CO 2 Separation

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The University of Cincinnati (UC) is developing a revolutionary carbon dioxide (CO2) capture system optimized for direct air capture (DAC). The technology utilizes an adsorption-regeneration cycle with a proprietary aminopolymer-silica hybrid adsorbent. UC is being assisted by BASF Catalysts and Daeyoung C&E in developing the sorbent-washcoated monolith structure and Trimeric for the economic analysis.

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Andrew Jones, Energy Efficient Direct Air Capture System for High Purity CO 2 Separation, 11/2/2022, https://edx.netl.doe.gov/dataset/energy-efficient-direct-air-capture-system-for-high-purity-co-2-separation

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Field	Value
Last Updated	November 2, 2022, 15:51 (LMT)
Created	November 2, 2022, 15:10 (LMT)
Citation	Andrew Jones, Energy Efficient Direct Air Capture System for High Purity CO 2 Separation, 11/2/2022, https://edx.netl.doe.gov/dataset/energy-efficient-direct-air-capture-system-for-high-purity-co-2-separation
Geospatial	no
Netl Product	yes
Poc Email	andrew.jones@netl.doe.gov
Point Of Contact	Andrew Jones
Program Or Project	Carbon Capture
Project Number	FE0032128

Energy Efficient Direct Air Capture System for High Purity CO 2 Separation

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Authors

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