Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution

The fundamental cause of deterioration of buried pipeline is soil corrosion. Factors that influence soil corrosion includes soil type, moisture content, supply of oxygen, redox potential, pH value, soil resistivity, and microbial activity. This study investigated the effect of soil types on the corr...

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Main Author: Mohamad Sa’Adan, Amy Wahida
Format: Thesis
Language:English
Published: 2012
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Online Access:http://eprints.utm.my/id/eprint/40627/1/AmyWahidaMohamadSaadanMFS2012.pdf
http://eprints.utm.my/id/eprint/40627/
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spelling my.utm.406272018-04-12T05:42:41Z http://eprints.utm.my/id/eprint/40627/ Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution Mohamad Sa’Adan, Amy Wahida QD Chemistry The fundamental cause of deterioration of buried pipeline is soil corrosion. Factors that influence soil corrosion includes soil type, moisture content, supply of oxygen, redox potential, pH value, soil resistivity, and microbial activity. This study investigated the effect of soil types on the corrosion of carbon steel. Three types of soil namely, laterite, yellow soil, and kaolin were taken as soil of interest. The corrosion rates of carbon steel in various types of soil solutions were studied by applying weight loss method in the temperature range of 30oC – 90oC for 1-5 days and electrochemical method based on Tafel polarization measurements. The results obtained from weight loss method and Tafel polarization measurement revealed that yellow soil has the highest corrosion rate. High corrosion rate is due to the low pH and high conductivity of yellow soil solution. The corrosion rates also increased with increasing temperature and decreased with increasing immersion time. Kinetic functions in terms of activation energy, Ea indicates that yellow soil solution has the lowest activation energy followed by laterite and kaolin which is 3.33 kJ mol-1, 5.48 kJ mol-1, and 8.82 kJ mol-1 respectively. The positive value of heat of reaction, ?H indicates that the process of interaction of chemical species in the solution of soil samples on the steel surface is endothermic. The negative value of entropy of reaction, ?S implies that the system is less disorder and decrease in randomized motion. The positive values of Gibbs free energy, ?G suggested that the corrosion reactions by chemical species in the soil solutions did not occur spontaneously. This investigation showed that the corrosion of laterite soil solution on carbon steel surface can be described as pitting corrosion which follows the Frumkin adsorption isotherm 2012-09 Thesis NonPeerReviewed application/pdf en http://eprints.utm.my/id/eprint/40627/1/AmyWahidaMohamadSaadanMFS2012.pdf Mohamad Sa’Adan, Amy Wahida (2012) Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution. Masters thesis, Universiti Teknologi Malaysia, Faculty of Science.
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic QD Chemistry
spellingShingle QD Chemistry
Mohamad Sa’Adan, Amy Wahida
Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
description The fundamental cause of deterioration of buried pipeline is soil corrosion. Factors that influence soil corrosion includes soil type, moisture content, supply of oxygen, redox potential, pH value, soil resistivity, and microbial activity. This study investigated the effect of soil types on the corrosion of carbon steel. Three types of soil namely, laterite, yellow soil, and kaolin were taken as soil of interest. The corrosion rates of carbon steel in various types of soil solutions were studied by applying weight loss method in the temperature range of 30oC – 90oC for 1-5 days and electrochemical method based on Tafel polarization measurements. The results obtained from weight loss method and Tafel polarization measurement revealed that yellow soil has the highest corrosion rate. High corrosion rate is due to the low pH and high conductivity of yellow soil solution. The corrosion rates also increased with increasing temperature and decreased with increasing immersion time. Kinetic functions in terms of activation energy, Ea indicates that yellow soil solution has the lowest activation energy followed by laterite and kaolin which is 3.33 kJ mol-1, 5.48 kJ mol-1, and 8.82 kJ mol-1 respectively. The positive value of heat of reaction, ?H indicates that the process of interaction of chemical species in the solution of soil samples on the steel surface is endothermic. The negative value of entropy of reaction, ?S implies that the system is less disorder and decrease in randomized motion. The positive values of Gibbs free energy, ?G suggested that the corrosion reactions by chemical species in the soil solutions did not occur spontaneously. This investigation showed that the corrosion of laterite soil solution on carbon steel surface can be described as pitting corrosion which follows the Frumkin adsorption isotherm
format Thesis
author Mohamad Sa’Adan, Amy Wahida
author_facet Mohamad Sa’Adan, Amy Wahida
author_sort Mohamad Sa’Adan, Amy Wahida
title Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
title_short Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
title_full Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
title_fullStr Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
title_full_unstemmed Kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
title_sort kinetics and thermodynamics of carbon steel corrosion in different types of soil solution
publishDate 2012
url http://eprints.utm.my/id/eprint/40627/1/AmyWahidaMohamadSaadanMFS2012.pdf
http://eprints.utm.my/id/eprint/40627/
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score 13.211869