Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture
CO2 capture from the atmosphere (or direct air capture) is widely recognized as a promising solution to reach negative emissions, and technologies using alkaline solutions as absorbent have already been demonstrated on a full scale. In the conventional temperature swing process, the subsequent regeneration of the alkaline solution is highly energy-demanding. In this study, we experimentally demonstrate simultaneous solvent regeneration and CO2 desorption in a continuous system using a H2-recycling electrochemical cell. A pH gradient is created in the electrochemical cell so that CO2 is desorbed at a low pH, while an alkaline capture solution (NaOH) is regenerated at high pH. By testing the cell under different working conditions, we experimentally achieved CO2 desorption with an energy consumption of 374 kJ·mol-1 CO2 and a CO2 purity higher than 95%. Moreover, our theoretical calculations show that a minimum energy consumption of 164 kJ·mol-1 CO2 could be achieved. Overall, the H2-recycling electrochemical cell allowed us to accomplish the simultaneous desorption of high-purity CO2 stream and regeneration of up to 59% of the CO2 capture capacity of the absorbent. These results are promising toward the upscaling of an energy-effective process for direct air capture.
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dig-wur-nl-wurpubs-5682482024-12-04 Shu, Qingdian Legrand, Louis Kuntke, Philipp Tedesco, Michele Hamelers, Hubertus V.M. Article/Letter to editor Environmental science & technology 54 (2020) 14 ISSN: 0013-936X Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture 2020 CO2 capture from the atmosphere (or direct air capture) is widely recognized as a promising solution to reach negative emissions, and technologies using alkaline solutions as absorbent have already been demonstrated on a full scale. In the conventional temperature swing process, the subsequent regeneration of the alkaline solution is highly energy-demanding. In this study, we experimentally demonstrate simultaneous solvent regeneration and CO2 desorption in a continuous system using a H2-recycling electrochemical cell. A pH gradient is created in the electrochemical cell so that CO2 is desorbed at a low pH, while an alkaline capture solution (NaOH) is regenerated at high pH. By testing the cell under different working conditions, we experimentally achieved CO2 desorption with an energy consumption of 374 kJ·mol-1 CO2 and a CO2 purity higher than 95%. Moreover, our theoretical calculations show that a minimum energy consumption of 164 kJ·mol-1 CO2 could be achieved. Overall, the H2-recycling electrochemical cell allowed us to accomplish the simultaneous desorption of high-purity CO2 stream and regeneration of up to 59% of the CO2 capture capacity of the absorbent. These results are promising toward the upscaling of an energy-effective process for direct air capture. en application/pdf https://research.wur.nl/en/publications/electrochemical-regeneration-of-spent-alkaline-absorbent-from-dir 10.1021/acs.est.0c01977 https://edepot.wur.nl/528382 Life Science https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research |
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Life Science Life Science Shu, Qingdian Legrand, Louis Kuntke, Philipp Tedesco, Michele Hamelers, Hubertus V.M. Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
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CO2 capture from the atmosphere (or direct air capture) is widely recognized as a promising solution to reach negative emissions, and technologies using alkaline solutions as absorbent have already been demonstrated on a full scale. In the conventional temperature swing process, the subsequent regeneration of the alkaline solution is highly energy-demanding. In this study, we experimentally demonstrate simultaneous solvent regeneration and CO2 desorption in a continuous system using a H2-recycling electrochemical cell. A pH gradient is created in the electrochemical cell so that CO2 is desorbed at a low pH, while an alkaline capture solution (NaOH) is regenerated at high pH. By testing the cell under different working conditions, we experimentally achieved CO2 desorption with an energy consumption of 374 kJ·mol-1 CO2 and a CO2 purity higher than 95%. Moreover, our theoretical calculations show that a minimum energy consumption of 164 kJ·mol-1 CO2 could be achieved. Overall, the H2-recycling electrochemical cell allowed us to accomplish the simultaneous desorption of high-purity CO2 stream and regeneration of up to 59% of the CO2 capture capacity of the absorbent. These results are promising toward the upscaling of an energy-effective process for direct air capture. |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Shu, Qingdian Legrand, Louis Kuntke, Philipp Tedesco, Michele Hamelers, Hubertus V.M. |
| author_facet |
Shu, Qingdian Legrand, Louis Kuntke, Philipp Tedesco, Michele Hamelers, Hubertus V.M. |
| author_sort |
Shu, Qingdian |
| title |
Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
| title_short |
Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
| title_full |
Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
| title_fullStr |
Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
| title_full_unstemmed |
Electrochemical Regeneration of Spent Alkaline Absorbent from Direct Air Capture |
| title_sort |
electrochemical regeneration of spent alkaline absorbent from direct air capture |
| url |
https://research.wur.nl/en/publications/electrochemical-regeneration-of-spent-alkaline-absorbent-from-dir |
| work_keys_str_mv |
AT shuqingdian electrochemicalregenerationofspentalkalineabsorbentfromdirectaircapture AT legrandlouis electrochemicalregenerationofspentalkalineabsorbentfromdirectaircapture AT kuntkephilipp electrochemicalregenerationofspentalkalineabsorbentfromdirectaircapture AT tedescomichele electrochemicalregenerationofspentalkalineabsorbentfromdirectaircapture AT hamelershubertusvm electrochemicalregenerationofspentalkalineabsorbentfromdirectaircapture |
| _version_ |
1819144646219005952 |