Decanethiol as a Corrosion Inhibitor for Carbon Steels Exposed to Aqueous CO2

Decanethiol as a Corrosion Inhibitor for Carbon Steels Exposed to Aqueous CO2

Carbon dioxide (CO2) corrosion mitigation is a challenge in the oil and gas industry. In order to decrease the severity of CO2 corrosion of carbon steel pipelines and equipment, different mitigation practices are recommended. One such strategy is the application of surface-active chemical inhibitors...

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Bibliographic Details
Published in:Corrosion (Houston, Tex.) Vol. 75; no. 10; p. 1246
Main Authors: Belarbi, Z, J.M. Dominguez Olivo, Farelas, F, Singer, M, Young, D, Nešić, S
Format: Journal Article
Language:English
Published: Houston NACE International 01-10-2019
Subjects:
Adsorption
Analytical methods
Aqueous electrolytes
Carbon dioxide
Carbon steel
Carbon steels
Corrosion
Corrosion inhibitors
Corrosion mechanisms
Corrosion tests
Electrochemical impedance spectroscopy
Electrochemistry
Electrode polarization
Electrodes
Electron microscopy
Evaluation
Experiments
Gas pipelines
Hydrocarbons
Inhibitors
Linear polarization
Mitigation
Oil and gas industries
Oil and gas industry
Petroleum pipelines
Pipelines
Scanning electron microscopy
Sodium chloride
Spectroscopy
Spectrum analysis
Steel pipes
Submarine pipelines
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Summary:Carbon dioxide (CO2) corrosion mitigation is a challenge in the oil and gas industry. In order to decrease the severity of CO2 corrosion of carbon steel pipelines and equipment, different mitigation practices are recommended. One such strategy is the application of surface-active chemical inhibitors. The aim of this research was to evaluate the inhibition effectiveness of decanethiol in a CO2-saturated aqueous electrolyte (1 wt% NaCl). The inhibition properties of decanethiol were evaluated by electrochemical measurements (linear polarization resistance, potentiodynamic sweeps, and electrochemical impedance spectroscopy) and the steel surface was characterized by scanning electron microscopy. The obtained data show that decanethiol can successfully prevent corrosion of carbon steels in a CO2 environment. An inhibition mechanism was also proposed based on adsorption characteristics and inhibitor film formation.
ISSN:0010-9312
1938-159X
DOI:10.5006/3233