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Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit

[Image: see text] In the present study, the performance of a CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) perovskite used as an oxygen carrier to burn sour gas with different H(2)S concentrations (up to 3000 vppm) in a continuous 500 W(th) chemical looping combustion (CLC) prototype was investigated. After 2...

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Autores principales: Cabello, A., Abad, A., Mendiara, T., de las Obras Loscertales, M., de Diego, L. F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10526641/
https://www.ncbi.nlm.nih.gov/pubmed/37771886
http://dx.doi.org/10.1021/acs.energyfuels.3c02391
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author Cabello, A.
Abad, A.
Mendiara, T.
de las Obras Loscertales, M.
de Diego, L. F.
author_facet Cabello, A.
Abad, A.
Mendiara, T.
de las Obras Loscertales, M.
de Diego, L. F.
author_sort Cabello, A.
collection PubMed
description [Image: see text] In the present study, the performance of a CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) perovskite used as an oxygen carrier to burn sour gas with different H(2)S concentrations (up to 3000 vppm) in a continuous 500 W(th) chemical looping combustion (CLC) prototype was investigated. After 29 h of sour gas combustion, the combustion efficiency had dropped by 18% in comparison with the reference test without sulfur addition. The characterization of the used particles of the perovskite confirmed that the presence of sulfur in the fuel gas had a poisonous effect through the formation of undesired compounds, such as CaSO(4). The reactivity with CH(4) and oxygen uncoupling capacity decreased, which could explain the decrease in the combustion efficiency. Two regeneration processes, one at high temperature (1273 K) and another one at low temperature (773–873 K), were carried out in a batch fluidized bed reactor to remove the amount of sulfur accumulated in the oxygen carrier particles. The detection of appreciable amounts of gaseous sulfur-based compounds (SO(2) and H(2)S) during the experimentation and the postcharacterization results obtained through different techniques such as X-ray diffraction, ultimate analysis, and thermogravimetric analysis confirmed the effectiveness of both processes. Finally, the feasibility of implementation of the regeneration processes in a commercial CLC unit was thoroughly analyzed.
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spelling pubmed-105266412023-09-28 Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit Cabello, A. Abad, A. Mendiara, T. de las Obras Loscertales, M. de Diego, L. F. Energy Fuels [Image: see text] In the present study, the performance of a CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) perovskite used as an oxygen carrier to burn sour gas with different H(2)S concentrations (up to 3000 vppm) in a continuous 500 W(th) chemical looping combustion (CLC) prototype was investigated. After 29 h of sour gas combustion, the combustion efficiency had dropped by 18% in comparison with the reference test without sulfur addition. The characterization of the used particles of the perovskite confirmed that the presence of sulfur in the fuel gas had a poisonous effect through the formation of undesired compounds, such as CaSO(4). The reactivity with CH(4) and oxygen uncoupling capacity decreased, which could explain the decrease in the combustion efficiency. Two regeneration processes, one at high temperature (1273 K) and another one at low temperature (773–873 K), were carried out in a batch fluidized bed reactor to remove the amount of sulfur accumulated in the oxygen carrier particles. The detection of appreciable amounts of gaseous sulfur-based compounds (SO(2) and H(2)S) during the experimentation and the postcharacterization results obtained through different techniques such as X-ray diffraction, ultimate analysis, and thermogravimetric analysis confirmed the effectiveness of both processes. Finally, the feasibility of implementation of the regeneration processes in a commercial CLC unit was thoroughly analyzed. American Chemical Society 2023-08-29 /pmc/articles/PMC10526641/ /pubmed/37771886 http://dx.doi.org/10.1021/acs.energyfuels.3c02391 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Cabello, A.
Abad, A.
Mendiara, T.
de las Obras Loscertales, M.
de Diego, L. F.
Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title_full Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title_fullStr Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title_full_unstemmed Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title_short Sulfur Interaction and Regeneration of CaMn(0.775)Ti(0.125)Mg(0.1)O(2.9−δ) Perovskite as Oxygen Carrier during Combustion of Sour Gas in a 500 W(th) Chemical Looping Combustion Unit
title_sort sulfur interaction and regeneration of camn(0.775)ti(0.125)mg(0.1)o(2.9−δ) perovskite as oxygen carrier during combustion of sour gas in a 500 w(th) chemical looping combustion unit
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10526641/
https://www.ncbi.nlm.nih.gov/pubmed/37771886
http://dx.doi.org/10.1021/acs.energyfuels.3c02391
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