The effect of cathodic polarization on the corrosion behavior of X65 steel in seawater containing sulfate‐reducing bacteria

Lv, Meiying; Li, Xia; Du, Min

doi:10.1002/maco.202011715

Cited by 9 publications

(6 citation statements)

References 39 publications

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“…The Fe 2p spectra of the compounds detected in the corrosion products of the Fe oxide deposited steel (Figure 9a,c) includes FeO, FeOOH, Fe 3 O 4 , and FeS at 708.1, 724.3, 710.4, and 713.6 eV respectively. [ 35,36 ] The S 2p spectra indicate that the steel under Fe oxide (Figure 9c) contained more FeS (at 160.9 eV) than the sand‐deposited sample. [ 36 ] Notably, FeS 2 (at 162.4 eV) was not detected in the corrosion product of the Fe oxide deposited steel (Figure 9c,d), suggesting the transformation of some sulfide species in the deposit.…”

Section: Resultsmentioning

confidence: 99%

“…[ 35,36 ] The S 2p spectra indicate that the steel under Fe oxide (Figure 9c) contained more FeS (at 160.9 eV) than the sand‐deposited sample. [ 36 ] Notably, FeS 2 (at 162.4 eV) was not detected in the corrosion product of the Fe oxide deposited steel (Figure 9c,d), suggesting the transformation of some sulfide species in the deposit. [ 36–38 ]…”

Section: Resultsmentioning

confidence: 99%

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Role of Fe oxide in the underdeposit corrosion of pipeline steel in oilfield produced water containing SRB

Udowo

Mao

Liu

et al. 2023

Materials & Corrosion

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The corrosion behavior of C20 pipeline steel was studied under Fe oxide and sand deposits in oilfield produced water containing sulfate‐reducing bacteria (SRB) via electrochemical techniques and surface analyses. A galvanic current of about 2 μAcm−2 was detected when the Fe oxide deposited sample and the bare steel were coupled in zero resistance ammeter (ZRA) mode, with the former being the anodic member of the couple. The Fe oxide deposited steel recorded severe localized corrosion after 14 days of testing in the SRB inoculated oilfield produced water. Corrosion severity decreased on the sand‐deposited steel, with general corrosion as the dominant morphology of surface attack. The development of product film was a vital factor in steel corrosion under the Fe oxide deposit.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Role of Fe oxide in the underdeposit corrosion of pipeline steel in oilfield produced water containing SRB

Udowo

Mao

Liu

et al. 2023

Materials & Corrosion

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“…The hydrogen evolution potential of X70 steel in the medium moved positively compared with that in sterile solution, indicating that the concentration of H + in the bacterial medium was much higher than that in the sterile solution. In most studies on SRB corrosion under cathodic protection [54,55], in the presence of bacteria, the cathodic protection current was larger and CP potential was more negative. However, opposite results were obtained in our study because the high concentrations of HCO 3 and CO 2 in NS4 solution were hydrolyzed to produce a large quantity of H + [56].…”

Section: Corrosion Mechanism Of X70 Steel In Ns4 Solution Under the S...mentioning

confidence: 99%

Effects of cathodic protection potential on microbiologically induced corrosion behavior of X70 steel in a near-neutral pH solution

Chen

Cui

Wang

et al. 2023

Mater. Res. Express

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Sulfate reducing bacteria (SRB) are considered as one of the main causes for the failures of buried metal pipes. Although many researchers reported that more negative cathodic protection potential was required in environments containing SRB, SRB would increase the concentration of hydrogen adsorbed on steel surface and thus lead to hydrogen embrittlement. In the study, the optimum cathodic protection (CP) potentials of X70 steel in bacterial and sterile media were evaluated with electrochemical impedance spectroscopy. The morphology and composition of corrosion products were characterized by a scanning electron microscope (SEM), an energy dispersion X-ray spectrometer (EDS), and an X-ray photoelectron spectrometer (XPS). The corrosion morphology of X70 steel in NS4 medium was pits and the corrosion in the bacterial medium was more serious than that in the sterile medium. The corrosion products of X70 steel were FeOOH and Fe2O3 in the sterile medium, whereas its corrosion products in the bacterial medium were FeOOH and FeS. When CP potential was -775 mV, SRB growth was promoted and the optimal protection effect on X70 steel was achieved in the bacterial NS4 medium. Pits were still observed under the biofilm and the corresponding corrosion mechanism was extracellular electron transfer (EET). When CP potential was -875 mV, X70 steel realized the optimal protection in the sterile NS4 solution. However, CO2 hydrolysis and SRB metabolism in the bacterial medium resulted in hydrogen-induced pits on X70 steel surface. When CP potential was -1025 mV, the growth of SRB was inhibited and severe hydrogen evolution corrosion occurred on X70 steel in bacterial and sterile NS4 media. The optimal CP potential for pipeline steel in the sterile medium may lead to hydrogen corrosion in the bacterial medium when H+ concentration was high.

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“…Chen et al (2021aChen et al ( , 2021bChen et al ( , 2021c; Cui et al (2021aCui et al ( , 2020Cui et al ( , 2021b discovered that the metal corrosion rates in SRB-containing solutions were higher than that in the sterile solutions. According to Chen and Zhang (2018), Lv et al (2020), SRB interfered with the electrochemical reactions that happened during polarization, increasing the cathodic current. Chen et al (2021bChen et al ( , 2021c realized that as the strain rate increased, the rust layer was destroyed, resulting in a decrease in passive film resistance.…”

Section: Introductionmentioning

confidence: 99%

Effects of stress, strain rate and sulfate-reducing bacteria on corrosion behavior of X70 pipeline steel

Wang

Zhao

et al. 2022

ACMM

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Purpose The purpose of this study is to find the multi-factor influence law of stress, strain rate and sulfate-reducing bacteria (SRB) on X70 pipeline steel in a simulated solution of sea mud and the order of influence of the three factors on X70 steel to develop a scientific basis for pipeline corrosion protection. Design/methodology/approach This paper studied the effects of stress, strain rate and SRB on the X70 pipeline steel corrosion behavior in simulated sea mud solution through orthogonal testing, electrochemical experiments and morphological observations. Findings The results of this study showed that stress proved to be the most relevant element for corrosion behavior, followed by SRB and strain rate. At high stresses (301 MPa and 576 MPa), stress dominated the corrosion behavior of X70 pipeline steel. However, at low stress (82 MPa), SRB played the most important role. Originality/value Subsea pipelines are in a very complex environmental regime that includes stress, strain rates and SRB, which often cause pipeline pitting and perforation. However, most scholars have only looked into the influence of single factors on metal corrosion. So, the single-factor experimental results of previous studies could hardly be applied to actual working conditions. There is an urgent need to understand the multi-factor influence law of stress, strain and SRB acting together on the pipeline corrosion behavior, especially to determine the dominant factor.

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The effect of cathodic polarization on the corrosion behavior of X65 steel in seawater containing sulfate‐reducing bacteria

Cited by 9 publications

References 39 publications

Role of Fe oxide in the underdeposit corrosion of pipeline steel in oilfield produced water containing SRB

Role of Fe oxide in the underdeposit corrosion of pipeline steel in oilfield produced water containing SRB

Effects of cathodic protection potential on microbiologically induced corrosion behavior of X70 steel in a near-neutral pH solution

Effects of stress, strain rate and sulfate-reducing bacteria on corrosion behavior of X70 pipeline steel

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