Failure analysis on a primary superheater tube of a power plant
In this paper failure analysis on the SA213-T12 superheater tube by visual inspection, in situ measurements of hardness and finite element analyses is presented. A primary superheater tube has failed with a wide open burst after running at around 28,194 h. Heavy clinkers were found to almost entirel...
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my.uniten.dspace-307012023-12-29T15:51:34Z Failure analysis on a primary superheater tube of a power plant Purbolaksono J. Ahmad J. Beng L.C. Rashid A.Z. Khinani A. Ali A.A. 8621252500 57210531371 26423491900 26326524600 26326351400 57213370267 Clinker Failure analysis Hardness Primary superheater tube Short-term overheating Failure analysis Flue gases Hardness Measurements Safety factor Superheater tubes Tubes (components) Visual communication Clinker Failure mechanism Finite element analysis Flow path Hardness measurement In-situ In-situ measurement Primary superheater tube Root cause Short-term overheating Visual inspection Quality assurance In this paper failure analysis on the SA213-T12 superheater tube by visual inspection, in situ measurements of hardness and finite element analyses is presented. A primary superheater tube has failed with a wide open burst after running at around 28,194 h. Heavy clinkers were found to almost entirely cover the primary superheater region. In situ hardness measurements were carried out on the selected primary superheater first row tubes at the middle region between furnace rear screen tube and primary superheater blower flow path. Hardness measurements are also taken on the as-received failed tube. Finite element analyses on possible features prior to failure are also conducted in order to illustrate and deduce the failure mechanism and failure root cause. Localized short-term overheating of the tube due to localized and concentrated flue gas flow resulted in a failure of the primary superheater tube. � 2009 Elsevier Ltd. All rights reserved. Final 2023-12-29T07:51:33Z 2023-12-29T07:51:33Z 2010 Article 10.1016/j.engfailanal.2009.04.017 2-s2.0-70449518434 https://www.scopus.com/inward/record.uri?eid=2-s2.0-70449518434&doi=10.1016%2fj.engfailanal.2009.04.017&partnerID=40&md5=704bfc3073c29e63610ab3c1b8bfa461 https://irepository.uniten.edu.my/handle/123456789/30701 17 1 158 167 Scopus |
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Clinker Failure analysis Hardness Primary superheater tube Short-term overheating Failure analysis Flue gases Hardness Measurements Safety factor Superheater tubes Tubes (components) Visual communication Clinker Failure mechanism Finite element analysis Flow path Hardness measurement In-situ In-situ measurement Primary superheater tube Root cause Short-term overheating Visual inspection Quality assurance |
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Clinker Failure analysis Hardness Primary superheater tube Short-term overheating Failure analysis Flue gases Hardness Measurements Safety factor Superheater tubes Tubes (components) Visual communication Clinker Failure mechanism Finite element analysis Flow path Hardness measurement In-situ In-situ measurement Primary superheater tube Root cause Short-term overheating Visual inspection Quality assurance Purbolaksono J. Ahmad J. Beng L.C. Rashid A.Z. Khinani A. Ali A.A. Failure analysis on a primary superheater tube of a power plant |
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In this paper failure analysis on the SA213-T12 superheater tube by visual inspection, in situ measurements of hardness and finite element analyses is presented. A primary superheater tube has failed with a wide open burst after running at around 28,194 h. Heavy clinkers were found to almost entirely cover the primary superheater region. In situ hardness measurements were carried out on the selected primary superheater first row tubes at the middle region between furnace rear screen tube and primary superheater blower flow path. Hardness measurements are also taken on the as-received failed tube. Finite element analyses on possible features prior to failure are also conducted in order to illustrate and deduce the failure mechanism and failure root cause. Localized short-term overheating of the tube due to localized and concentrated flue gas flow resulted in a failure of the primary superheater tube. � 2009 Elsevier Ltd. All rights reserved. |
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8621252500 |
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8621252500 Purbolaksono J. Ahmad J. Beng L.C. Rashid A.Z. Khinani A. Ali A.A. |
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Article |
author |
Purbolaksono J. Ahmad J. Beng L.C. Rashid A.Z. Khinani A. Ali A.A. |
author_sort |
Purbolaksono J. |
title |
Failure analysis on a primary superheater tube of a power plant |
title_short |
Failure analysis on a primary superheater tube of a power plant |
title_full |
Failure analysis on a primary superheater tube of a power plant |
title_fullStr |
Failure analysis on a primary superheater tube of a power plant |
title_full_unstemmed |
Failure analysis on a primary superheater tube of a power plant |
title_sort |
failure analysis on a primary superheater tube of a power plant |
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2023 |
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1806427430899941376 |
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13.222552 |