relation: https://khub.utp.edu.my/scholars/2253/ title: Empirical equation of CO2 corrosion with presence of low concentrations of acetic acid under turbulent flow conditions creator: Fatah, M.C. creator: Ismail, M.C. description: The presence of organic acid species in formation water of oil and gas reservoirs has long been suspected to contribute to the corrosivity of CO 2 corrosion. The effect had been regarded as secondary until new findings in the 1980s and 1990s revealed the increase in corrosion rate in CO2 environment with the presence of acetic acid species. This is potentially detrimental as most of the predictive models used in corrosivity assessment of the field do not incorporate considerations of the effects of acetic acid species. This paper presents experimental corrosion rates of carbon steel in CO2 environments with the presence of low concentrations of acetic acid species under the turbulent flow conditions, based on linear polarisation resistance analysis. The experimental corrosion rates are compared with the corrosion rates predicted by industrial predictive models such as Norsok and Cassandra. Based on the findings, the authors can conclude that acetic acid species increase the corrosion rate of carbon steel in CO 2 corrosion and standard predictive models do not capture this effect. An empirical equation is proposed to cater for the presence of low concentrations of acetic acid in CO2 corrosion under turbulent conditions. © 2011 Institute of Materials, Minerals and Mining. date: 2011 type: Article type: PeerReviewed identifier: Fatah, M.C. and Ismail, M.C. (2011) Empirical equation of CO2 corrosion with presence of low concentrations of acetic acid under turbulent flow conditions. Corrosion Engineering Science and Technology, 46 (1). pp. 49-55. ISSN 1478422X relation: https://www.scopus.com/inward/record.uri?eid=2-s2.0-79951987668&doi=10.1179%2f147842209X12464471864574&partnerID=40&md5=000373d1c196e6e1949f77bacad3bf26 relation: 10.1179/147842209X12464471864574 identifier: 10.1179/147842209X12464471864574