Distributed direct air capture of carbon dioxide by synergistic water harvesting

Yongqiang Wang; Longbing Qu; Hui Ding; Paul Webley; Gang Kevin Li

doi:10.1038/s41467-024-53961-4

Distributed direct air capture of carbon dioxide by synergistic water harvesting

Yongqiang Wang, Longbing Qu, Hui Ding, Paul Webley, Gang Kevin Li

Chemical & Biological Engineering

Research output: Contribution to journal › Article › Research › peer-review

35 Citations (Scopus)

Abstract

Adsorption-based direct air capture (DAC) of carbon dioxide, using chemisorbents like solid amines, has been widely recognized as a sustainable measure to contain atmospheric CO₂ concentrations. However, the productivity and economic viability of DAC have been compromised by the high energy consumption for regenerating the adsorbents. Here, we show that by synergistically harvesting water and carbon dioxide from the atmosphere, we can regenerate the unit using in situ vapor purge at low energy and capital cost. The desorption of CO₂ is substantially enhanced in the presence of concentrated water vapors at around 100 °C, concurrently producing 97.7% purity CO₂ and fresh water without the use of vacuum pumps and steam boilers. Moreover, we demonstrate that the DAC prototype can also be powered by sunlight, which recovers 98% of the adsorbed CO₂, with 20% less energy demand, enabling sustainable carbon capture from air in a real distributed manner.

Original language	English
Article number	9745
Number of pages	11
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-53961-4
Publication status	Published - 11 Dec 2024

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abstract = "Adsorption-based direct air capture (DAC) of carbon dioxide, using chemisorbents like solid amines, has been widely recognized as a sustainable measure to contain atmospheric CO2 concentrations. However, the productivity and economic viability of DAC have been compromised by the high energy consumption for regenerating the adsorbents. Here, we show that by synergistically harvesting water and carbon dioxide from the atmosphere, we can regenerate the unit using in situ vapor purge at low energy and capital cost. The desorption of CO2 is substantially enhanced in the presence of concentrated water vapors at around 100 °C, concurrently producing 97.7\% purity CO2 and fresh water without the use of vacuum pumps and steam boilers. Moreover, we demonstrate that the DAC prototype can also be powered by sunlight, which recovers 98\% of the adsorbed CO2, with 20\% less energy demand, enabling sustainable carbon capture from air in a real distributed manner.",

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AU - Qu, Longbing

AU - Ding, Hui

AU - Webley, Paul

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Distributed direct air capture of carbon dioxide by synergistic water harvesting

Abstract

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