Effect of carbon steel metallurgy on the inhibition of carbon dioxide corrosion by film forming inhibitors

The internal corrosion of carbon steel pipelines by carbonic acid is commonly controlled using film forming corrosion inhibitors. Generic filming forming corrosion inhibitors are surfactant molecules that adsorb at the corroding steel surface to form a barrier against the corrosive aqueous component...

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Bibliographic Details
Main Authors: Bailey, S, John, D, Kinsella, B, De Marco, R
Format: Conference Object
Language:English
Published: Curran Associates Inc. 2009
Subjects:
FoR 0306 (Physical Chemistry (Incl. Structural))
FoR 0912 (Materials Engineering)
FoR 0913 (Mechanical Engineering)
carbon dioxide corrosion
carbon steel
film forming inhibitors
metallurgy
Carbonic acid
Online Access:http://www.proceedings.com/15634.html
Description
Summary:The internal corrosion of carbon steel pipelines by carbonic acid is commonly controlled using film forming corrosion inhibitors. Generic filming forming corrosion inhibitors are surfactant molecules that adsorb at the corroding steel surface to form a barrier against the corrosive aqueous components. These surfactant molecules form distinct adsorbed surface geometries of spheres, rods and bilayers where the packing of these surface geometries may be influenced by the metallurgy of the steel. This paper explores the effect of several different metallurgies (Grade 1020, API 5L X65 and API 5L X60) on the efficacy of generic and commercial corrosion inhibitor compounds. The study investigated six inhibitors, four analytical grade single component pure compounds (cetyl pyridinium chloride (CPC), dodecyl pyridinium chloride (DPC), 1-hydroxyethyl-2-oleic imidazoline hydrochloride (OHEI) and cetyl dimethyl benzyl ammonium chloride (CDMBAC)), and two commercial corrosion inhibitor formulations denoted as CI(A) and CI(B).

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