Cheng-Hsiu Yu scite author profile

Global warming resulting from the emission of greenhouse gases, especially CO 2 , has become a widespread concern in the recent years. Though various CO 2 capture technologies have been proposed, chemical absorption and adsorption are currently believed to be the most suitable ones for post-combustion power plants. The operation of the chemical absorption process is reviewed in this work, together with the use of absorbents, such as the ionic liquid, alkanolamines and their blended aqueous solutions. The major concerns for this technology, including CO 2 capture efficiency, absorption rate, energy required in regeneration, and volume of absorber, are addressed. For adsorption, in addition to physical adsorbents, various mesoporous solid adsorbents impregnated with polyamines and grafted with aminosilanes are reviewed in this work. The major concerns for selection of adsorbent, including cost, adsorption rate, CO 2 adsorption capacity, and thermal stability, are compared and discussed. More effective and less energy-consuming regeneration techniques for CO 2 -loaded adsorbents are also proposed. Future works for both absorption and adsorption are suggested.

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CO2 capture by alkanolamine solutions containing diethylenetriamine and piperazine in a rotating packed bed

Cheng

Tan

2012

International Journal of Greenhouse Gas Control

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Modelling and Design of Carbon Dioxide Absorption in Rotating Packed Bed and Packed Column

Thiels

Wong

et al. 2016

IFAC-PapersOnLine

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CO2 capture by piperazine mixed with non-aqueous solvent diethylene glycol in a rotating packed bed

Tan

2013

International Journal of Greenhouse Gas Control

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Mixed Alkanolamines with Low Regeneration Energy for CO2 Capture in a Rotating Packed Bed

Tan

2013

Energy Procedia

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Cheng-Hsiu Yu

A Review of CO2 Capture by Absorption and Adsorption

CO2 capture by alkanolamine solutions containing diethylenetriamine and piperazine in a rotating packed bed

Modelling and Design of Carbon Dioxide Absorption in Rotating Packed Bed and Packed Column

CO2 capture by piperazine mixed with non-aqueous solvent diethylene glycol in a rotating packed bed

Mixed Alkanolamines with Low Regeneration Energy for CO2 Capture in a Rotating Packed Bed

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