Formation of Ferrous Sulfide Film from Sulfite on Steel Under Anaerobic Conditions

Hemmingsen, Tor; Vangdal, H.; Våland, T.

doi:10.5006/1.3315963

Cited by 22 publications

(6 citation statements)

References 11 publications

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“…Chemical methods, such as addition of oxygen scavengers (sulfites and metasulfites), are mainly used as a backup for the physical process in case of malfunction or in order to remove the last traces of oxygen. Installation of vacuum towers or gas purging facilities has a high capital cost and a large footprint, while the use of sulfite based oxygen scavengers may have a negative impact on the environment and, if overdozed, also gives a high risk of sulfide corrosion of the piplines …”

Section: Introductionmentioning

confidence: 99%

“…Installation of vacuum towers or gas purging facilities has a high capital cost and a large footprint, while the use of sulfite based oxygen scavengers may have a negative impact on the environment and, if overdozed, also gives a high risk of sulfide corrosion of the piplines. 2 The use of an electrochemical process for the removal of oxygen from seawater is an alternative method that avoids the disadvantages described for the other methods. 3−5 The oxidation of water to yield hydroxium ion and oxygen, and the reduction of oxygen to water are the basis for deoxygenation of water.…”

Section: Introductionmentioning

confidence: 99%

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Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Dotel

Vuorilehto

Sydnes

et al. 2017

Ind. Eng. Chem. Res.

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In this study, electrochemical removal of oxygen from seawater in industrial scale is demonstrated. A test rig with an industrial scale electrochemical cell has been constructed and tested with filtrated oxygen rich seawater. The electrochemical cell was comprised of a silver mesh cathode and an iridium oxide anode with a cation exchange membrane. The effects of flow rate, pressure, and applied voltage on oxygen removal efficiency and resulting current were studied. Also, the differential pressure between the anode and cathode chambers affected the performance of the cell, and an overpressure of 0.20−0.30 bar in the anode chamber was optimal in order to obtain maximum oxygen removal. It was possible to achieve an oxygen concentration lower than 5 ppb in seawater at a flow rate of 5 L min −1 . No scaling or biofilm problems were observed during a 200 h test period.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Dotel

Vuorilehto

Sydnes

et al. 2017

Ind. Eng. Chem. Res.

View full text Add to dashboard Cite

show abstract

“…Oxygen removal to a concentration less than 10 ppb can be achieved with the use of oxygen scavengers . However, many of the chemicals for oxygen removal are not environmentally friendly, and some chemicals can have a severe negative impact on the occupational safety of the personnel involved in the process, and may in addition increase corrosion when used in too high doses . The scavenging ability of these chemicals depends on pH and temperature, and catalysts might be required in order to have a sufficient reaction rate.…”

Section: Introductionmentioning

confidence: 99%

Experimental Study of Silver Cathode for Electrochemical Deoxygenation of Seawater for Enhanced Oil Recovery

Dotel

Vuorilehto

Sydnes

et al. 2016

Ind. Eng. Chem. Res.

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Seawater injection into reservoirs is a common method to enhance oil recovery. In order to avoid corrosion in pipes, the oxygen has to be removed from the seawater. This study focuses on the use of silver cathodes in electrochemical cells for oxygen removal, and the physical parameters that affect the efficiency of this process. Three electrochemical cells have been constructed and tested with packed bed cathodes made up of pure silver particles and silver plated brass spheres. Experimental results showed that silver was a suitable cathode material for oxygen removal. The most important parameter for optimizing cell performance was the depth of the cathode chamber. In addition, the thickness of the silver plating is also an important parameter to adjust since a too-thin layer results in erosion giving rise to galvanic corrosion between brass and silver, which reduces the efficiency of the cell.

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“…Moreover, Ruhl and Kranzmann [38] suggested that the inner part of the FeSO 3 · x H 2 O and FeSO 4 · x H 2 O layers changed to iron sulphide (FeS) under ambient pressure. The changing process was characterised by the following equation [123]: When NO x and SO x were present, ammoniojarosite ((NH 4 )Fe 3 (SO 4 ) 2 (OH) 6 ) was found to be the main corrosion product under ambient conditions [36], while Fe(NO 3 ) 3 .9H 2 O and Fe 2 O 3 .H 2 O were detected as the main corrosion products for X65 steel in water-saturated supercritical CO 2 with 1000 ppmv NO 2 [91]. NO 3 – present in the solution might be reduced to ammonium (NH 4 + ) within the aqueous film and in the presence of hydronium ions (H 3 O + ) [37], according to the following equation [124]: …”

Section: Influential Parameters and Mechanismsmentioning

confidence: 99%

State-of-the-art overview of pipeline steel corrosion in impure dense CO₂ for CCS transportation: mechanisms and models

Xiang

Choi

2017

Corrosion Engineering, Science and Technology

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This work reviews the existing open literature concerned with pipeline steel corrosion in CO 2 -rich phase with impurities for carbon capture and storage purpose. The intent of this review was to provide information on the corrosion mechanisms, which is crucial for establishing the mechanistic prediction models. The primary focus was placed on key affecting parameters and their corresponding mechanisms, while the corrosion control strategies and research prospects are also discussed. This review covers the effects of: impurities, pressure, temperature, flow, exposure time, product layers, and steel chemistry. The influences of flow dynamics, amines, sulphur, and solids that had received little systematic attention need to be further addressed. Contradictory conclusions regarding the influence of H 2 O and O 2 on the corrosion rates should be re-evaluated. The localised corrosion and cathodic reaction mechanisms also require further investigation, especially under synergistic conditions with multiple impurities.

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Formation of Ferrous Sulfide Film from Sulfite on Steel Under Anaerobic Conditions

Cited by 22 publications

References 11 publications

Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Experimental Study of Silver Cathode for Electrochemical Deoxygenation of Seawater for Enhanced Oil Recovery

State-of-the-art overview of pipeline steel corrosion in impure dense CO₂ for CCS transportation: mechanisms and models

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Formation of Ferrous Sulfide Film from Sulfite on Steel Under Anaerobic Conditions

Cited by 22 publications

References 11 publications

Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Electrochemical Oxygen Removal from Seawater in Industrial Scale Using Silver Cathode

Experimental Study of Silver Cathode for Electrochemical Deoxygenation of Seawater for Enhanced Oil Recovery

State-of-the-art overview of pipeline steel corrosion in impure dense CO2 for CCS transportation: mechanisms and models

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Product

Resources

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State-of-the-art overview of pipeline steel corrosion in impure dense CO₂ for CCS transportation: mechanisms and models