Performance and energy cost evaluation of an integrated NH 3 -based CO 2 capture-capacitive deionization process

Ullah, Asad; Saleem, Muhammad Wajid; Kim, Woo-Seung

doi:10.1016/j.ijggc.2017.09.013

Cited by 17 publications

(6 citation statements)

References 57 publications

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“…CO 2 (g) absorption and desorption can be controlled through shifting the current direction. CDI can also be used in combination with NH 3 -based CO 2 capture [166].…”

Section: Electrode Induced Ph-swingmentioning

confidence: 99%

Electrochemical carbon dioxide capture to close the carbon cycle

Sharifian

Wagterveld²,

Digdaya

et al. 2021

Energy Environ. Sci.

306

196

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“…CO 2 (g) absorption and desorption can be controlled through shifting the current direction. CDI can also be used in combination with NH 3 -based CO 2 capture [166].…”

Section: Electrode Induced Ph-swingmentioning

confidence: 99%

Electrochemical carbon dioxide capture to close the carbon cycle

Sharifian

Wagterveld²,

Digdaya

et al. 2021

Energy Environ. Sci.

306

196

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“…Ullah et al . (2017) adopted a simulation tool (Aspen Plus) to present technical and economic analysis of the CDI device integrated with the absorption‐desorption process based on aqueous ammonia as a solvent. They noted that the energy requirement was 37.5% less than that of a conventional CO 2 desorption process while energy cost savings of up to 31% can be achieved for gas‐fired boilers and 12.3% for coal‐fired boilers.…”

Section: Hybrid Techniques For Co2 Capturementioning

confidence: 99%

Post‐combustion CO₂ capture with chemical absorption and hybrid system: current status and challenges

et al. 2018

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Post-combustion CO 2 capture from the power and industrial sectors has gained widespread attention due to its ability to retrofit easily with newly installed and existing plants. This state-of-the-art, updated review provides an overview of technical issues in post-combustion CO 2 capture related to process performance, energy requirements for CO 2 capture, and inconsistencies in the prediction of CO 2 capture cost. Recent updates are presented regarding chemical absorption-desorption systems, and particularly CO 2 absorption and solubility enhancement studies, absorber operation at elevated pressure, recent developments in absorber configuration, and methods for reducing the heat duty of strippers. Furthermore, recently developed post-combustion hybrid techniques such as the membrane-absorbent hybrid process, the membrane-cryogenic hybrid process, the membrane-adsorption hybrid process, the absorption-electrolysis hybrid process, and the solar thermal electrochemical process (STEP) are discussed. Finally, we suggest areas for improvement and indicate that there are significant future prospects for post-combustion CO 2 capture. C

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“…110 Aside from removing salinity from brackish water, CDI/MCDI can be applied for (i) removing nitrate, 111 sulfate, 112 and fluoride, 113 (ii) recovering metal ions such as lithium 114 and chromium 113 from wastewater, and (iii) integrating with NH 3 -based CO 2 capture to reduce the stripper regeneration energy. 115…”

Section: Configurations and Principlesmentioning

confidence: 99%

Electrokinetic desalination of brackish water and associated challenges in the water and energy nexus

Pan

Snyder

Lin

et al. 2018

Environ. Sci.: Water Res. Technol.

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Performance and energy cost evaluation of an integrated NH 3 -based CO 2 capture-capacitive deionization process

Cited by 17 publications

References 57 publications

Electrochemical carbon dioxide capture to close the carbon cycle

Electrochemical carbon dioxide capture to close the carbon cycle

Post‐combustion CO₂ capture with chemical absorption and hybrid system: current status and challenges

Electrokinetic desalination of brackish water and associated challenges in the water and energy nexus

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Performance and energy cost evaluation of an integrated NH 3 -based CO 2 capture-capacitive deionization process

Cited by 17 publications

References 57 publications

Electrochemical carbon dioxide capture to close the carbon cycle

Electrochemical carbon dioxide capture to close the carbon cycle

Post‐combustion CO2 capture with chemical absorption and hybrid system: current status and challenges

Electrokinetic desalination of brackish water and associated challenges in the water and energy nexus

Contact Info

Product

Resources

About

Post‐combustion CO₂ capture with chemical absorption and hybrid system: current status and challenges