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Analysis of Absorber Packed Height for Power Plants with Post-Combustion CO₂ Capture

Miriam Navarrete Procopio / Gustavo Urquiza / Laura Castro

The electricity generation process from fossil fuels is one of the sources of CO $_{2}$ emissions. The post-combustion CO $_{2}$ capture is an alternative to minimize emissions. The packed absorption column is the first unit of the CO $_{2}$ capture process. In this study, the values of the process parameters were established to reduce the absorber-packed height using a simulator developed in this work. The simulator was validated using measurements in a laboratory-scale absorption unit; simulations were carried out with the same operating conditions as measurements and two different fuels were treated; coal and natural gas. A combined-cycle power plant in Mexico was simulated, with the objective of evaluating the main parameters in the absorption process and required dimensions of the packed absorption column required to carry out the capture of CO $_{2}$ in the power plant. From the result of the simulations, three columns treatment with 3 m diameter and 7 m height were established to remove 99% of the CO $_{2}$ of the flue gases with 20 wt.% of MEA composition using Mellapak 500Y structured packaging.

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Analysis of Absorber Packed Height for Power Plants with Post-Combustion CO₂ Capture

Miriam Navarrete Procopio / Gustavo Urquiza / Laura Castro

The electricity generation process from fossil fuels is one of the sources of CO $_{2}$ emissions. The post-combustion CO $_{2}$ capture is an alternative to minimize emissions. The packed absorption column is the first unit of the CO $_{2}$ capture process. In this study, the values of the process parameters were established to reduce the absorber-packed height using a simulator developed in this work. The simulator was validated using measurements in a laboratory-scale absorption unit; simulations were carried out with the same operating conditions as measurements and two different fuels were treated; coal and natural gas. A combined-cycle power plant in Mexico was simulated, with the objective of evaluating the main parameters in the absorption process and required dimensions of the packed absorption column required to carry out the capture of CO $_{2}$ in the power plant. From the result of the simulations, three columns treatment with 3 m diameter and 7 m height were established to remove 99% of the CO $_{2}$ of the flue gases with 20 wt.% of MEA composition using Mellapak 500Y structured packaging.

Analysis of Absorber Packed Height for Power Plants with Post-Combustion CO₂ Capture

Miriam Navarrete Procopio / Gustavo Urquiza / Laura Castro

The electricity generation process from fossil fuels is one of the sources of CO $_{2}$ emissions. The post-combustion CO $_{2}$ capture is an alternative to minimize emissions. The packed absorption column is the first unit of the CO $_{2}$ capture process. In this study, the values of the process parameters were established to reduce the absorber-packed height using a simulator developed in this work. The simulator was validated using measurements in a laboratory-scale absorption unit; simulations were carried out with the same operating conditions as measurements and two different fuels were treated; coal and natural gas. A combined-cycle power plant in Mexico was simulated, with the objective of evaluating the main parameters in the absorption process and required dimensions of the packed absorption column required to carry out the capture of CO $_{2}$ in the power plant. From the result of the simulations, three columns treatment with 3 m diameter and 7 m height were established to remove 99% of the CO $_{2}$ of the flue gases with 20 wt.% of MEA composition using Mellapak 500Y structured packaging.

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Title:

Analysis of Absorber Packed Height for Power Plants with Post-Combustion CO₂ Capture

Contributors:

Miriam Navarrete Procopio (author) / Gustavo Urquiza (author) / Laura Castro (author)

Published in:

Sustainability, Vol 15, Iss 12, p 9536 (2023)

Publication date:

2023

ISSN:

DOI:

https://doi.org/10.3390/su15129536

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

absorber packed height , absorption column , power plant , process system modelling , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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