Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery

Ferritic steels are exposed to simultaneous oxidizing/sulfiding environments during their service in industrial furnaces, which intensify their degradation and reduce their expected lifetime. This research supplies different corrosion details from those highly reported for the studied alloy under si...

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Autores:: Alviz Meza, Anibal
Kafarov, Viatcheslav
Cardenas, Y
Peña-Ballesteros, D Y

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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dc.title.spa.fl_str_mv	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
spellingShingle	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title_short	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title_full	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title_fullStr	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title_full_unstemmed	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
title_sort	Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery
dc.creator.fl_str_mv	Alviz Meza, Anibal Kafarov, Viatcheslav Cardenas, Y Peña-Ballesteros, D Y
dc.contributor.author.spa.fl_str_mv	Alviz Meza, Anibal Kafarov, Viatcheslav Cardenas, Y Peña-Ballesteros, D Y
description	Ferritic steels are exposed to simultaneous oxidizing/sulfiding environments during their service in industrial furnaces, which intensify their degradation and reduce their expected lifetime. This research supplies different corrosion details from those highly reported for the studied alloy under single oxidation or sulfidation atmospheres, as well as from those works developed on oxyfuel gas mixtures. The experimental data obtained by us were compared with an oxidation paper previously published by the same authors but without the additional effect of sulfur oxides. The simulated conditions used included temperatures from 450 to 750 °C, exposure times up to 200 h, and a flue gas molar composition without the carbon dioxide influence. As a result, the oxidation mechanism was markedly affected by bulk and surface sulfur compounds, due to their strong adsorption, pathways blocking, and induced layer spallation. This study aimed to identify sulfur compounds onto the oxide layers by means of X-ray photoelectron spectroscopy, which were later validated through a ferritic-steel sample extracted from a refinery furnace. Finally, the present work contributes to the field of physics-physical chemistry-by providing the thermodynamic equilibrium of sulfur oxides at tested conditions and the kinetic behavior of the scale.
publishDate	2020
dc.date.issued.none.fl_str_mv	2020
dc.date.accessioned.none.fl_str_mv	2021-02-23T22:24:48Z
dc.date.available.none.fl_str_mv	2021-02-23T22:24:48Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.type.content.spa.fl_str_mv	Text
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dc.identifier.uri.spa.fl_str_mv	https://hdl.handle.net/11323/7915
dc.identifier.doi.spa.fl_str_mv	https://doi.org/10.1088/1742-6596/1708/1/012006
dc.identifier.instname.spa.fl_str_mv	Corporación Universidad de la Costa
dc.identifier.reponame.spa.fl_str_mv	REDICUC - Repositorio CUC
dc.identifier.repourl.spa.fl_str_mv	https://repositorio.cuc.edu.co/
url	https://hdl.handle.net/11323/7915 https://doi.org/10.1088/1742-6596/1708/1/012006 https://repositorio.cuc.edu.co/
identifier_str_mv	Corporación Universidad de la Costa REDICUC - Repositorio CUC
dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	[1] Cala O M, Kafarov V, Saavedra J 2013 Rev. Ing. Universidad de Medellín 12(23) 101–111 [2] Rebak R 2011 Corros. Rev. 29(3-4) 123–133 [3] Wen X, Bai P, Luo B, Zheng S, Chen C 2018 Corrosion Science 139 145-162 [4] Perumal K 2009 Corrosion Review 27 37–60 [5] Pandey C, Giri A, Mahapatra M 2016 Materials Science and Engineering: A 664 58–74 [6] Pandey C, Saini N, Mahapatra M, Kumar P 2016 Int. J. Hydrogen Energy 41(39) 17695–17712 [7] Fabricius A, Jackson P 2016 Engineering Failure Analysis. 66 398–406 [8] Guo-Zhong J, Wang-Zhou W, Shu-Ho D 1997 International Journal of Pressure Vessels and Piping 74(3) 199-204 [9] Wright I, Dooley R 2010 International Materials Reviews 55(3) 129–167 [10] Gesmundo F, Roos C, Oquab D, Viani F 1998 High Temperature Materials and Process 17(3) 145–153 [11] Nützmann K, Kranzmann A, Stephan-Scherb C 2018 Mater. High Temp. 35(6) 558–568 [12] John R 2010 Sulfidation and mixed gas corrosion of alloys Shreir's Corrosion vol 1, ed Richardson T J A (Amsterdam: Elsevier B. V.) pp 240–270 [13] Kim M, Park S, Lee D 2012 Energy Procedia 14 1837–1842 [14] Lobnig R, Grabke H 1990 Corrosion Science 30(10) 1045–1071 [15] Schulte M, Rahmel A, Schutze M 1998 Oxidation of Metals 49(1-2) 32–70 [16] Chandra K, Dörfel I, Wollschläger N, Kranzmann A 2019 Corrosion Science 148 94–109 [17] Chandra K, Kranzmann A, Saliwan R, Oder G, Rizzo F 2015 Oxidation of Metals 83(3-4) 291–316 [18] Mosquera-Feijoo M 2019 Influence of Surface Ash Layer on Dual Corrosion (España: Universidad de Vigo) [19] Yu C, Nguyen T, Zhang J, Young D 2015 Corrosion Science 98(9) 516–529 [20] Alviz-Meza A, Kafarov V, Peña-Ballesteros D Y 2017 J. Phys. Conf. Ser. 935 012057:1-7 [21] Petkova V, Pelovski Y 2008 J. Therm. Anal. Calorim 93(3) 847–852
dc.rights.spa.fl_str_mv	Attribution-NonCommercial-NoDerivatives 4.0 International
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dc.publisher.spa.fl_str_mv	Corporación Universidad de la Costa
dc.source.spa.fl_str_mv	Journal of Physics Conference Series
institution	Corporación Universidad de la Costa
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spelling	Alviz Meza, Anibaladd35d6723840372c9530957be5d5abaKafarov, Viatcheslav2c3b4ef008c7b988d7cbff6c75a6f93cCardenas, Y97e2aab165c67d9b38ddea34e72ded5aPeña-Ballesteros, D Ybbda51f5e44af587d27df38dfecb62e52021-02-23T22:24:48Z2021-02-23T22:24:48Z2020https://hdl.handle.net/11323/7915https://doi.org/10.1088/1742-6596/1708/1/012006Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/Ferritic steels are exposed to simultaneous oxidizing/sulfiding environments during their service in industrial furnaces, which intensify their degradation and reduce their expected lifetime. This research supplies different corrosion details from those highly reported for the studied alloy under single oxidation or sulfidation atmospheres, as well as from those works developed on oxyfuel gas mixtures. The experimental data obtained by us were compared with an oxidation paper previously published by the same authors but without the additional effect of sulfur oxides. The simulated conditions used included temperatures from 450 to 750 °C, exposure times up to 200 h, and a flue gas molar composition without the carbon dioxide influence. As a result, the oxidation mechanism was markedly affected by bulk and surface sulfur compounds, due to their strong adsorption, pathways blocking, and induced layer spallation. This study aimed to identify sulfur compounds onto the oxide layers by means of X-ray photoelectron spectroscopy, which were later validated through a ferritic-steel sample extracted from a refinery furnace. Finally, the present work contributes to the field of physics-physical chemistry-by providing the thermodynamic equilibrium of sulfur oxides at tested conditions and the kinetic behavior of the scale.application/pdfengCorporación Universidad de la CostaAttribution-NonCommercial-NoDerivatives 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Journal of Physics Conference Serieshttps://iopscience.iop.org/article/10.1088/1742-6596/1708/1/012006Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refineryArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersion[1] Cala O M, Kafarov V, Saavedra J 2013 Rev. Ing. Universidad de Medellín 12(23) 101–111[2] Rebak R 2011 Corros. Rev. 29(3-4) 123–133[3] Wen X, Bai P, Luo B, Zheng S, Chen C 2018 Corrosion Science 139 145-162[4] Perumal K 2009 Corrosion Review 27 37–60[5] Pandey C, Giri A, Mahapatra M 2016 Materials Science and Engineering: A 664 58–74[6] Pandey C, Saini N, Mahapatra M, Kumar P 2016 Int. J. Hydrogen Energy 41(39) 17695–17712[7] Fabricius A, Jackson P 2016 Engineering Failure Analysis. 66 398–406[8] Guo-Zhong J, Wang-Zhou W, Shu-Ho D 1997 International Journal of Pressure Vessels and Piping 74(3) 199-204[9] Wright I, Dooley R 2010 International Materials Reviews 55(3) 129–167[10] Gesmundo F, Roos C, Oquab D, Viani F 1998 High Temperature Materials and Process 17(3) 145–153[11] Nützmann K, Kranzmann A, Stephan-Scherb C 2018 Mater. High Temp. 35(6) 558–568[12] John R 2010 Sulfidation and mixed gas corrosion of alloys Shreir's Corrosion vol 1, ed Richardson T J A (Amsterdam: Elsevier B. V.) pp 240–270[13] Kim M, Park S, Lee D 2012 Energy Procedia 14 1837–1842[14] Lobnig R, Grabke H 1990 Corrosion Science 30(10) 1045–1071[15] Schulte M, Rahmel A, Schutze M 1998 Oxidation of Metals 49(1-2) 32–70[16] Chandra K, Dörfel I, Wollschläger N, Kranzmann A 2019 Corrosion Science 148 94–109[17] Chandra K, Kranzmann A, Saliwan R, Oder G, Rizzo F 2015 Oxidation of Metals 83(3-4) 291–316[18] Mosquera-Feijoo M 2019 Influence of Surface Ash Layer on Dual Corrosion (España: Universidad de Vigo)[19] Yu C, Nguyen T, Zhang J, Young D 2015 Corrosion Science 98(9) 516–529[20] Alviz-Meza A, Kafarov V, Peña-Ballesteros D Y 2017 J. Phys. Conf. Ser. 935 012057:1-7[21] Petkova V, Pelovski Y 2008 J. Therm. Anal. Calorim 93(3) 847–852ORIGINALSimultaneous sulfidation oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery.pdfSimultaneous sulfidation oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery.pdfapplication/pdf98304https://repositorio.cuc.edu.co/bitstream/11323/7915/1/Simultaneous%20sulfidation%20oxidation%20of%20a%20ferritic%20steel%20under%20a%20simulated%20mixture%20of%20flue%20gas%20from%20an%20oil%20refinery.pdfc9bad156ca412371e73d9226b549e586MD51open accessCC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8805https://repositorio.cuc.edu.co/bitstream/11323/7915/2/license_rdf4460e5956bc1d1639be9ae6146a50347MD52open accessLICENSElicense.txtlicense.txttext/plain; charset=utf-83196https://repositorio.cuc.edu.co/bitstream/11323/7915/3/license.txte30e9215131d99561d40d6b0abbe9badMD53open accessTHUMBNAILSimultaneous sulfidation oxidation of a ferritic steel under a simulated mixture of flue gas from an oil 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Simultaneous sulfidation/oxidation of a ferritic steel under a simulated mixture of flue gas from an oil refinery

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