Determination of correlation functions of the oxide scale growth and the temperature increase
In this paper, a method for estimating the scale growth of superheater and reheater tubes of boiler and generating the constant B which is correlating the scale growth and the increased tube metal temperature, for different operational conditions is reported. This method utilizes an empirical formul...
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my.uniten.dspace-305292023-12-29T15:48:58Z Determination of correlation functions of the oxide scale growth and the temperature increase Salman B.H. Hamzah M.Z. Purbolaksono J. Inayat-Hussain J.I. Mohammed H.A. Muhieldeen M.W. 48461700800 57219718512 8621252500 6602271377 15837504600 48461673100 Heat transfer Numerical simulation Oxidation Superheater and reheater Estimation Flue gases Numerical methods Superheater tubes Tubes (components) Convection coefficients Correlation function Empirical formulas External surfaces Finite element modeling Flue gas temperatures Inner surfaces Larson-Miller parameter Mass flow rate Operational conditions Oxide scale growth Reheater tubes Scale thickness Temperature increase Tube geometry Tube metal temperatures Scale (deposits) In this paper, a method for estimating the scale growth of superheater and reheater tubes of boiler and generating the constant B which is correlating the scale growth and the increased tube metal temperature, for different operational conditions is reported. This method utilizes an empirical formula correlating the scale thickness with Larson-Miller Parameter (LMP). Finite element modeling to estimate the scale thickness on the inner surface of the tube over period of time is developed. The effects of tube geometry, mass flow rate and temperature of steam, flue gas temperature and the convection coefficient on the external surface of the tube that influenced the temperature increase in the tube metal are examined. The present results provide better estimation of the oxide scale growth and temperature increase over period of time. � 2011 Elsevier Ltd. Final 2023-12-29T07:48:58Z 2023-12-29T07:48:58Z 2011 Article 10.1016/j.engfailanal.2011.08.001 2-s2.0-80054749085 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80054749085&doi=10.1016%2fj.engfailanal.2011.08.001&partnerID=40&md5=626559532e4fd14435b345b866e2acca https://irepository.uniten.edu.my/handle/123456789/30529 18 8 2260 2271 Scopus |
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Heat transfer Numerical simulation Oxidation Superheater and reheater Estimation Flue gases Numerical methods Superheater tubes Tubes (components) Convection coefficients Correlation function Empirical formulas External surfaces Finite element modeling Flue gas temperatures Inner surfaces Larson-Miller parameter Mass flow rate Operational conditions Oxide scale growth Reheater tubes Scale thickness Temperature increase Tube geometry Tube metal temperatures Scale (deposits) |
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Heat transfer Numerical simulation Oxidation Superheater and reheater Estimation Flue gases Numerical methods Superheater tubes Tubes (components) Convection coefficients Correlation function Empirical formulas External surfaces Finite element modeling Flue gas temperatures Inner surfaces Larson-Miller parameter Mass flow rate Operational conditions Oxide scale growth Reheater tubes Scale thickness Temperature increase Tube geometry Tube metal temperatures Scale (deposits) Salman B.H. Hamzah M.Z. Purbolaksono J. Inayat-Hussain J.I. Mohammed H.A. Muhieldeen M.W. Determination of correlation functions of the oxide scale growth and the temperature increase |
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In this paper, a method for estimating the scale growth of superheater and reheater tubes of boiler and generating the constant B which is correlating the scale growth and the increased tube metal temperature, for different operational conditions is reported. This method utilizes an empirical formula correlating the scale thickness with Larson-Miller Parameter (LMP). Finite element modeling to estimate the scale thickness on the inner surface of the tube over period of time is developed. The effects of tube geometry, mass flow rate and temperature of steam, flue gas temperature and the convection coefficient on the external surface of the tube that influenced the temperature increase in the tube metal are examined. The present results provide better estimation of the oxide scale growth and temperature increase over period of time. � 2011 Elsevier Ltd. |
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48461700800 |
author_facet |
48461700800 Salman B.H. Hamzah M.Z. Purbolaksono J. Inayat-Hussain J.I. Mohammed H.A. Muhieldeen M.W. |
format |
Article |
author |
Salman B.H. Hamzah M.Z. Purbolaksono J. Inayat-Hussain J.I. Mohammed H.A. Muhieldeen M.W. |
author_sort |
Salman B.H. |
title |
Determination of correlation functions of the oxide scale growth and the temperature increase |
title_short |
Determination of correlation functions of the oxide scale growth and the temperature increase |
title_full |
Determination of correlation functions of the oxide scale growth and the temperature increase |
title_fullStr |
Determination of correlation functions of the oxide scale growth and the temperature increase |
title_full_unstemmed |
Determination of correlation functions of the oxide scale growth and the temperature increase |
title_sort |
determination of correlation functions of the oxide scale growth and the temperature increase |
publishDate |
2023 |
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1806426489692880896 |