Films Formed on Carbon Steel in Sweet Environments - A Review

Fioravante, Igor Alexandre; Nunes, Ronaldo Spezia; Acciari, Heloísa Andréa; Codaro, Eduardo Norberto

doi:10.21577/0103-5053.20190055

Cited by 8 publications

(8 citation statements)

References 40 publications

(71 reference statements)

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“…There is a resultant decrease in the i corr from 47.70 (without MET) to 4.33 μA cm –2 (with 200 ppm MET), and this yields an inhibition efficiency as high as 86.31%. Here, it is noteworthy to mention that this inhibition efficiency is considerably higher compared to that noted by earlier authors at higher concentrations. , Furthermore, this high inhibition efficiency is remarkable considering that in the present study the investigations have been carried out in the presence of acetic acid, which is known to increase the corrosiveness of 3.5 wt % NaCl in the presence of CO 2 . Although the MET addition shifts the anodic and cathodic arms of the PDP curves toward lower values, it can be clearly seen that the effect of MET on the cathodic current is more obvious than its effect on the anodic current.…”

Section: Resultscontrasting

confidence: 38%

“…22,59 Furthermore, this high inhibition efficiency is remarkable considering that in the present study the investigations have been carried out in the presence of acetic acid, which is known to increase the corrosiveness of 3.5 wt % NaCl in the presence of CO 2 . 60 Although the MET addition shifts the anodic and cathodic arms of the PDP curves toward lower values, it can be clearly seen that the effect of MET on the cathodic current is more obvious than its effect on the anodic current. MET can, therefore, be regarded as a more cathodic-type inhibitor.…”

Section: Resultsmentioning

confidence: 96%

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Electrochemical and Computational Insights on the Application of Expired Metformin Drug as a Novel Inhibitor for the Sweet Corrosion of C1018 Steel

et al. 2020

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An expired metformin drug (MET) was used as a corrosion inhibitor for C1018 carbon steel in a CO2-saturated 3.5 wt % NaCl + 340 ppm acetic acid solution under static conditions. The inhibitor was evaluated using electrochemical methods complemented with surface analytical measurements and computational modeling. The drug displayed a high inhibition efficiency of ∼90% at 200 ppm. Impedance analyses revealed a rise in the charge transfer resistance at the steel–solution interface upon the addition of the inhibitor. Polarization measurements suggested that MET acted more like a cathodic-type corrosion inhibitor and significantly reduced the corrosion current density. The adsorption of MET on the steel substrate followed the Langmuir isotherm, showing a mixed type of physical and chemical modes of adsorption. The thermodynamic parameters revealed strong and spontaneous adsorption on the steel surface. The surface analysis using SEM supported the inhibitor adsorption on the steel substrate. Based on the DFT simulation, inhibition by MET is mainly achieved by its protonated form, which leads to the formation of a thin film on the steel surface rather than the modification of the work function of the steel surface. The experimental and theoretical estimations of pKa complemented the DFT results, both agreeing that the monoprotonated form of MET is the dominant form in which the inhibitor adsorbs on the steel surface to form a thin film rather than modify the work function of the steel surface.

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Section: Resultscontrasting

confidence: 38%

Section: Resultsmentioning

confidence: 96%

Electrochemical and Computational Insights on the Application of Expired Metformin Drug as a Novel Inhibitor for the Sweet Corrosion of C1018 Steel

et al. 2020

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“…61 Coprecipitation of Co(OH) 2 and Fe(OH) 3 forms (Co, Fe)OOH on the iron foam surface after drying at high temperature. The chemical reaction for the synthesis of (Co, Fe)OOH can be described using Eq.2-5: 62 Fe + Co 2+ → Fe 2+ + Co (2)…”

Section: Resultsmentioning

confidence: 99%

“… 61 Coprecipitation of Co(OH) 2 and Fe(OH) 3 forms (Co, Fe)OOH on the iron foam surface after drying at a high temperature. The chemical reaction for the synthesis of (Co, Fe)OOH can be described using eqn (2)–(5) : 62 Fe + Co 2+ → Fe 2+ + Co Co 2+ + 2H 2 O → Co(OH) 2 + 2H + O 2 + 2H 2 O + 4e − → 4OH − 2Fe 2+ + 4OH − → 2Fe(OH) 2 4Fe(OH) 2 + O 2 → 4FeOOH + 2H 2 O …”

Section: Resultsmentioning

confidence: 99%

Promoting electrocatalytic overall water splitting by sulfur incorporation into CoFe-(oxy)hydroxide

et al. 2021

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“…One issue that plagues this industry is infrastructure degradation through corrosion, which can undermine economic viability, as well as increase the probability of catastrophic failure. − On this basis, immense effort is being applied to explore routes to control this phenomenon with an increasing emphasis on lower environmental impact solutions, , such as harnessing naturally formed corrosion scales. For instance, it is proposed that the barrier properties of scales formed on carbon steel in aqueous CO 2 -saturated (sweet) environments, − encountered in geothermal power plants, carbon capture facilities, and oil production, can mitigate corrosion. Here, we test this hypothesis, providing experimental evidence to suggest that even the protection afforded by intact sweet corrosion scales may be undermined by spatially localized corrosion, so that they cannot be relied upon alone for structural integrity.…”

Section: Introductionmentioning

confidence: 99%

Substrate Protection with Corrosion Scales: Can We Depend on Iron Carbonate?

Kindi

Joshi

Cooper

et al. 2021

ACS Appl. Mater. Interfaces

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Controlling corrosion with naturally occurring corrosion scales is potentially a more environmentally sustainable alternative to current approaches, including dosing of organic corrosion inhibitors. We report operando grazing incidence X-ray diffractograms correlated with electrochemical measurements to elucidate the growth and corrosion protection properties of a corrosion scale composed of FeCO 3 crystallites, which is encountered in various key energy industry applications. Data, acquired as a function of time from high-purity iron immersed in CO 2 -saturated deionized H 2 O at pH 6.8 and T = 80 °C, show that the FeCO 3 scale not only prevents corrosion of the covered substrate but also acts as a significant interfacial diffusion barrier for corrosion reagents and/or products once sufficient coverage is achieved. Most notably, from a corrosion engineering perspective, however, it is determined that corrosion occurring in gaps between scale crystallites remains appreciable; this important insight is gained through the analysis of electrochemical impedance spectra to estimate the variation in electrochemically active surface area as scale coverage increases. These results indicate that naturally occurring FeCO 3 scales are not a tenable solution for corrosion protection, as even in their intact state they are highly likely to be, at best, semiprotective.

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Films Formed on Carbon Steel in Sweet Environments - A Review

Cited by 8 publications

References 40 publications

Electrochemical and Computational Insights on the Application of Expired Metformin Drug as a Novel Inhibitor for the Sweet Corrosion of C1018 Steel

Electrochemical and Computational Insights on the Application of Expired Metformin Drug as a Novel Inhibitor for the Sweet Corrosion of C1018 Steel

Promoting electrocatalytic overall water splitting by sulfur incorporation into CoFe-(oxy)hydroxide

Substrate Protection with Corrosion Scales: Can We Depend on Iron Carbonate?

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