Corrosion resistance of the anti‐sulfide steel in the CO<sub>2</sub>/H<sub>2</sub>S containing solutions

Bai, Zhen Quan; Yin, Z. F.; Wei, Dan; Wang, X. F.; Yin, Chengxian

doi:10.1002/maco.200905286

Cited by 9 publications

(6 citation statements)

References 16 publications

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“…Carbon dioxide corrosion is well understood, as summarized in the review by Nesic . However, the mechanism of hydrogen sulfide corrosion is not yet clear, as it is more complex, especially in the presence of CO 2 . − …”

Section: Introductionmentioning

confidence: 99%

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Ren¹,

Zeng²,

Lin³

et al. 2012

Ind. Eng. Chem. Res.

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Combinational metals of casing or tubing string have been extensively used in deep sour gas wells because of their corrosion resistance and low costs. C110 carbon steel and G3 alloy connected by a thread joint under different stresses represent a typical application of dissimilar metals in such a case. Around the contact part, complex corrosion can occur, including general, galvanic, and stress corrosion. To evaluate such corrosion, simulation experiments were conducted. Three specimens involving (1) a single piece of C110, (2) a galvanic couple of G3 alloy and C110, and (3) an elastic-and plastic-stressed C110 were separately placed in a high-pressure and high-temperature (HPHT) autoclave containing brine water and dissolved H 2 S, CO 2 , and elemental sulfur. After corrosion at 120 °C and 65 MPa for seven days, the specimens were examined by various methods, including weight loss, potential dynamic polarization, electrochemical impendence spectroscopy (EIS), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), and X-ray photoelectron spectrometry (XPS). The experimental results showed that sour corrosion of C110 in the vapor is similar to that in solution. The galvanic effect on C110 corrosion by G3 was not evident based on the measurement of the limited increment of corrosion rate. Slower acceleration for corrosion was also observed for C110 when elastic stress was applied. However, plastic deformation significantly stimulated the corrosion rate of C110. The yield strain was found to change the polarization behavior of the anode and the performance of the corrosion scale. The corrosion mechanism is discussed in detail based on an analysis of the surface morphology, composition, and electrochemical performance of the scale, together with theories of the supercritical state, semiconductors, and mechano-electrochemistry.

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Section: Introductionmentioning

confidence: 99%

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Ren¹,

Zeng²,

Lin³

et al. 2012

Ind. Eng. Chem. Res.

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“…The corrosion of H 2 S wastewater leads to serious failures of pipelines, casting tubes, and system equipments. Therefore, the control of H 2 S corrosion causes a major concern in oil and gas product environments (Bai et al, 2010). The characteristic “rotten egg” odour is also clearly undesirable and detected at a threshold of 0.0047 ppm (Elsayed et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Removal of hydrogen sulphide from high salinity wastewater by emulsion liquid membrane

Yaoqiang

Zhang

et al. 2011

Can J Chem Eng

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This article presents a experimental study on the removal of hydrogen sulphide (H 2 S) from high salinity wastewater by emulsion liquid membrane (ELM). The ELM contains diethanolamine (DEA) as carrier, kerosene as solvent and span 80 as surfactant. The fundamental parameters (viz. surfactant concentration, carrier concentration, strip phase concentration, phase ratio, agitation speed and time) affecting the removal of H 2 S were investigated to select the optimum combination of process parameters. The results showed the optimal governing parameters were: inner phase NaOH aqueous solution 2.0 wt%, Surfactant (span 80) 5.0 vol%, carrier (DEA) 6.0 vol%, treat ratio 1:5, agitation speed 250 rpm, agitation time 15 min, respectively, and removal efficiency of 97.3% was achieved.

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Section: ανεπιθύµητα συστατικά του φυσικού αερίουunclassified

“…∆εύτερον, το νερό σε συνδυασµό µε το διοξείδιο του άνθρακα και το υδρόθειο προκαλεί σηµαντικά προβλήµατα στο δίκτυο µεταφοράς και παροχής [19] , καθώς συντελεί στη διάβρωση των αγωγών ανθρακούχου χάλυβα [20,21] . Συνοπτικά, ο µηχανισµός διάβρωσης περιλαµβάνει διάσταση του διοξειδίου του άνθρακα και του υδρόθειου σε ελεύθερα ιόντα λόγω της παρουσίας νερού [20] . Το διοξείδιο του άνθρακα αρχικά υδρολύεται αποδίδοντας ανθρακικό οξύ, το οποίο διίσταται σε όξινο ανθρακικό ιόν, Αντίστοιχα, παρουσία νερού το υδρόθειο διίσταται σε ιόντα τα οποία προσβάλλουν τα τοιχώµατα του αγωγού [20] :…”

Section: ανεπιθύµητα συστατικά του φυσικού αερίουunclassified

“…Συνοπτικά, ο µηχανισµός διάβρωσης περιλαµβάνει διάσταση του διοξειδίου του άνθρακα και του υδρόθειου σε ελεύθερα ιόντα λόγω της παρουσίας νερού [20] . Το διοξείδιο του άνθρακα αρχικά υδρολύεται αποδίδοντας ανθρακικό οξύ, το οποίο διίσταται σε όξινο ανθρακικό ιόν, Αντίστοιχα, παρουσία νερού το υδρόθειο διίσταται σε ιόντα τα οποία προσβάλλουν τα τοιχώµατα του αγωγού [20] :…”

Section: ανεπιθύµητα συστατικά του φυσικού αερίουunclassified

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Κατασκευή Συναρτήσεων Δυναμικής Ενέργειας Δομικών Μορίων Ασύμμετρων Πολυμερικών Μεμβρανών Και Άλλων Συστημάτων

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Πίνακας 8.4. Ηλεκτρονιακές ενέργειες και διορθωµένες ενέργειες µηδενικού σηµείου διαµορφοµερών του µορίου της εξαµεθυλοτρισιλοξάνης, HMTS, όπως λήφθηκαν στο επίπεδο των MP2(full)/cc-pVDZ κβαντοµηχανικών υπολογισµών. Οι διαφορές ενεργειών αναφέρονται στη διαφορά του κάθε διαµορφοµερούς από αυτό του ολικού

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Corrosion resistance of the anti‐sulfide steel in the CO₂/H₂S containing solutions

Cited by 9 publications

References 16 publications

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Removal of hydrogen sulphide from high salinity wastewater by emulsion liquid membrane

Κατασκευή Συναρτήσεων Δυναμικής Ενέργειας Δομικών Μορίων Ασύμμετρων Πολυμερικών Μεμβρανών Και Άλλων Συστημάτων

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Corrosion resistance of the anti‐sulfide steel in the CO2/H2S containing solutions

Cited by 9 publications

References 16 publications

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Sour Corrosion of C110 Steel and Its Influence by Galvanic Couple and Stress

Removal of hydrogen sulphide from high salinity wastewater by emulsion liquid membrane

Κατασκευή Συναρτήσεων Δυναμικής Ενέργειας Δομικών Μορίων Ασύμμετρων Πολυμερικών Μεμβρανών Και Άλλων Συστημάτων

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Corrosion resistance of the anti‐sulfide steel in the CO₂/H₂S containing solutions