High temperature corrosion behavior of alloys in reducing HCL and H2S containing atmospheres: Thermodynamical and experimental assessment

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High temperature corrosion behavior of alloys in reducing HCL and H2S containing atmospheres: Thermodynamical and experimental assessment. / Nimmervoll, Manuela; Mori, Gregor Karl; Bucher, Edith et al.
in: Materials and Corrosion, Jahrgang 73.2022, Nr. 12, 03.08.2022, S. 1979-2003.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{297c95bc77a8471bbfebfde35b969c11,
title = "High temperature corrosion behavior of alloys in reducing HCL and H2S containing atmospheres: Thermodynamical and experimental assessment",
abstract = "High-temperature corrosion mechanisms in reducing atmospheres containing HCl (3.8 vol%) and a varying amount of H 2S (0.02 –2 vol%) were developed for several alloys between 420°C and 680°C. These mechanisms are mainly based on practical observations and kinetic considerations—and less on thermodynamic data. This is due to the complexity of these mixed gas atmospheres, volatile corrosion products, and the ever-changing conditions within the corrosion layer, which made it not possible to predict and calculate the actual conditions in the corrosion zone. In this article, a detailed thermodynamic analysis of previously achieved corrosion mechanisms and experimental observations is presented. Correlations and deviations between thermodynamic calculations and practical findings are stated and discussed. The corrosion behavior of ferritic K90941, which performs worse than corrosion-resistant austenitic alloys, except for one test condition at 580°C in the atmosphere with 0.2 vol% H 2S, is explained and supported by thermodynamic data. By combining experiments with thermodynamics, corrosion mechanisms in reducing HCl and H2S-containing atmospheres are explained. ",
author = "Manuela Nimmervoll and Mori, {Gregor Karl} and Edith Bucher and Stefan H{\"o}nig and Roland Haubner",
note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Materials and Corrosion published by Wiley-VCH GmbH.",
year = "2022",
month = aug,
day = "3",
doi = "10.1002/maco.202213329",
language = "English",
volume = "73.2022",
pages = "1979--2003",
journal = "Materials and Corrosion",
issn = "0947-5117",
publisher = "John Wiley & Sons, Gro{\ss}britannien",
number = "12",

}

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TY - JOUR

T1 - High temperature corrosion behavior of alloys in reducing HCL and H2S containing atmospheres: Thermodynamical and experimental assessment

AU - Nimmervoll, Manuela

AU - Mori, Gregor Karl

AU - Bucher, Edith

AU - Hönig, Stefan

AU - Haubner, Roland

N1 - Publisher Copyright: © 2022 The Authors. Materials and Corrosion published by Wiley-VCH GmbH.

PY - 2022/8/3

Y1 - 2022/8/3

N2 - High-temperature corrosion mechanisms in reducing atmospheres containing HCl (3.8 vol%) and a varying amount of H 2S (0.02 –2 vol%) were developed for several alloys between 420°C and 680°C. These mechanisms are mainly based on practical observations and kinetic considerations—and less on thermodynamic data. This is due to the complexity of these mixed gas atmospheres, volatile corrosion products, and the ever-changing conditions within the corrosion layer, which made it not possible to predict and calculate the actual conditions in the corrosion zone. In this article, a detailed thermodynamic analysis of previously achieved corrosion mechanisms and experimental observations is presented. Correlations and deviations between thermodynamic calculations and practical findings are stated and discussed. The corrosion behavior of ferritic K90941, which performs worse than corrosion-resistant austenitic alloys, except for one test condition at 580°C in the atmosphere with 0.2 vol% H 2S, is explained and supported by thermodynamic data. By combining experiments with thermodynamics, corrosion mechanisms in reducing HCl and H2S-containing atmospheres are explained.

AB - High-temperature corrosion mechanisms in reducing atmospheres containing HCl (3.8 vol%) and a varying amount of H 2S (0.02 –2 vol%) were developed for several alloys between 420°C and 680°C. These mechanisms are mainly based on practical observations and kinetic considerations—and less on thermodynamic data. This is due to the complexity of these mixed gas atmospheres, volatile corrosion products, and the ever-changing conditions within the corrosion layer, which made it not possible to predict and calculate the actual conditions in the corrosion zone. In this article, a detailed thermodynamic analysis of previously achieved corrosion mechanisms and experimental observations is presented. Correlations and deviations between thermodynamic calculations and practical findings are stated and discussed. The corrosion behavior of ferritic K90941, which performs worse than corrosion-resistant austenitic alloys, except for one test condition at 580°C in the atmosphere with 0.2 vol% H 2S, is explained and supported by thermodynamic data. By combining experiments with thermodynamics, corrosion mechanisms in reducing HCl and H2S-containing atmospheres are explained.

UR - http://www.scopus.com/inward/record.url?scp=85135538053&partnerID=8YFLogxK

U2 - 10.1002/maco.202213329

DO - 10.1002/maco.202213329

M3 - Article

VL - 73.2022

SP - 1979

EP - 2003

JO - Materials and Corrosion

JF - Materials and Corrosion

SN - 0947-5117

IS - 12

ER -