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Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant

[Image: see text] The CO(2) capture from back-up power plants by making use of calcium looping systems combined with large piles of Ca-solids has been studied in this work. A flexible CO(2) capture system based on a concept described in a previous work has been integrated into an existing power plan...

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Autores principales: Arias, Borja, Criado, Yolanda A., Abanades, J. Carlos
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2020
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7081300/
https://www.ncbi.nlm.nih.gov/pubmed/32201770
http://dx.doi.org/10.1021/acsomega.9b03552
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author Arias, Borja
Criado, Yolanda A.
Abanades, J. Carlos
author_facet Arias, Borja
Criado, Yolanda A.
Abanades, J. Carlos
author_sort Arias, Borja
collection PubMed
description [Image: see text] The CO(2) capture from back-up power plants by making use of calcium looping systems combined with large piles of Ca-solids has been studied in this work. A flexible CO(2) capture system based on a concept described in a previous work has been integrated into an existing power plant by including a small oxy-fired calciner (that represents just 8% of the total thermal capacity) to steadily regenerate the sorbent and a carbonator reactor following the back-up power plant operation periods to capture 90% of the CO(2) as CaCO(3) and two large piles of rich CaO and CaCO(3) solids stored at modest temperatures. When the back-up plant enters into operation, the calcined solids are brought into contact with the flue gases in the carbonator reactor; meanwhile, the oxy-calciner operates continuously at a steady state. In order to improve the flexibility of the CO(2) capture system and to minimize the increase of CO(2) capture costs associated with the additional new equipment used only during the brief back-up periods, we propose using the steam cycle of the existing power plant to recover a large fraction of the heat available from the streams leaving the carbonator. This makes it possible to maintain the electrical power output but reducing the thermal input to the power plant by 12% and thus the size of the associated CO(2) capture equipment. To generate the auxiliary power required for the oxy-calciner block, a small steam cycle is designed by integrating the waste heat from the streams leaving this reactor. By solving the mass and heat balances and proposing a feasible thermal integration scheme by using Aspen Hysys, it has been calculated that the CO(2) emitted by long-amortized power plants operated as back-up can be captured with a net efficiency of 28%.
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spelling pubmed-70813002020-03-20 Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant Arias, Borja Criado, Yolanda A. Abanades, J. Carlos ACS Omega [Image: see text] The CO(2) capture from back-up power plants by making use of calcium looping systems combined with large piles of Ca-solids has been studied in this work. A flexible CO(2) capture system based on a concept described in a previous work has been integrated into an existing power plant by including a small oxy-fired calciner (that represents just 8% of the total thermal capacity) to steadily regenerate the sorbent and a carbonator reactor following the back-up power plant operation periods to capture 90% of the CO(2) as CaCO(3) and two large piles of rich CaO and CaCO(3) solids stored at modest temperatures. When the back-up plant enters into operation, the calcined solids are brought into contact with the flue gases in the carbonator reactor; meanwhile, the oxy-calciner operates continuously at a steady state. In order to improve the flexibility of the CO(2) capture system and to minimize the increase of CO(2) capture costs associated with the additional new equipment used only during the brief back-up periods, we propose using the steam cycle of the existing power plant to recover a large fraction of the heat available from the streams leaving the carbonator. This makes it possible to maintain the electrical power output but reducing the thermal input to the power plant by 12% and thus the size of the associated CO(2) capture equipment. To generate the auxiliary power required for the oxy-calciner block, a small steam cycle is designed by integrating the waste heat from the streams leaving this reactor. By solving the mass and heat balances and proposing a feasible thermal integration scheme by using Aspen Hysys, it has been calculated that the CO(2) emitted by long-amortized power plants operated as back-up can be captured with a net efficiency of 28%. American Chemical Society 2020-03-03 /pmc/articles/PMC7081300/ /pubmed/32201770 http://dx.doi.org/10.1021/acsomega.9b03552 Text en Copyright © 2020 American Chemical Society This is an open access article published under a Creative Commons Non-Commercial No Derivative Works (CC-BY-NC-ND) Attribution License (http://pubs.acs.org/page/policy/authorchoice_ccbyncnd_termsofuse.html) , which permits copying and redistribution of the article, and creation of adaptations, all for non-commercial purposes.
spellingShingle Arias, Borja
Criado, Yolanda A.
Abanades, J. Carlos
Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title_full Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title_fullStr Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title_full_unstemmed Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title_short Thermal Integration of a Flexible Calcium Looping CO(2) Capture System in an Existing Back-Up Coal Power Plant
title_sort thermal integration of a flexible calcium looping co(2) capture system in an existing back-up coal power plant
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7081300/
https://www.ncbi.nlm.nih.gov/pubmed/32201770
http://dx.doi.org/10.1021/acsomega.9b03552
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