International Journal of Oil, Gas and Coal Engineering

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Effect of Mechanical Damage during Well Completion Activities on High Chrome Steel Tubulars in High H2S and CO2 Environments

Received: 18 February 2014    Accepted:     Published: 20 March 2014
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Abstract

High concentrations of H2S and CO2 make oil producing wells highly corrosive to normal steels alloys, such as carbon steel. The usual solution to this is high chrome steels alloys, such as ferritic stainless steel, i.e. 13Cr. These steels have a good service record in such environments, especially at operating temperatures below 150°C. However the passive film which provides protection can be easily damaged by mechanical activities such as wirelining. The lack of repassivation in these environments means that once damaged by mechanical action these tubulars suffer extensive localized corrosion. A comparison is made of the different workover methods which can exacerbate this problem, particularly wirelining. Where possible we recommend the use of coiled tubing.

DOI 10.11648/j.ogce.20140201.12
Published in International Journal of Oil, Gas and Coal Engineering (Volume 2, Issue 1, January 2014)
Page(s) 7-10
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

13Cr, Wirelining, Coiled Tubing, Sour Service

References
[1] Gair, D. J.; Moulds, T. P. Corrosion Prevention & Control. vol. 6, 1985, p. 50.
[2] NACE MR0175. "Petroleum and natural gas industries, materials for use in H2S containing environments in oil and gas production", NACE International, Houston Tx, 2001, ISBN 1-57590-1765.
[3] HANDLING AND RUNNING BEST PRACTICES, G2593R6, Sumimoto steel Co Japan.
[4] http://www.jfe-steel.co.jp/en/products/pipes/octg/support/p_a_h.html
[5] "Erosion–corrosion studies on 13 Cr steel in gas well environments by liquid jet impingement", P. Andrews , T.F. Illson, S.J. Matthews, Wear 233–235 _1999. 568–574
[6] EROSION-CORROSION PHENOMENA OF 13Cr AT LOW SAND RATE LEVELS, H.E. Rincon, J.R. Shadley, E.F. Rybicki, Corrosion 2005, paper 05291, NACE international, 2005.
[7] "WIRELINE WEAR RESISTANCE OF POLYMERIC CORROSION BARRIER COATINGS FOR DOWNHOLE APPLICATIONS" , N. Symonds, B. G. Mellor and R. J.K. Wood, Corrosion 2000 conference paper number 00170, NACE international, 2000.
[8] "THIRTY YEARS OF DOWNHOLE CORROSION EXPERIENCE AT BIG ESCAMBIA CREEK: CORROSION MECHANISMS AND INHIBITION", S.N. Smith, Corrosion 2004, conference paper 04744, NACE international, 2004
[9] "EROSION-CORROSION OF CORROSION RESISTANT ALLOYS USED IN THE OIL AND GAS INDUSTRY", H.E. Rincon, J.R. Shadley, K.P. Roberts, E.F. Rybicki, Corrosion 2008 conference paper 08571, NACE international, 2008.
[10] "Corrosion experience of 13%Cr steel tubing and laboratory evaluation of Super 13Cr steel in sweet environments containing acetic acid and trace amounts of H2S", Toshiyuki Sunaba, Hiroshi Honda, Yasuyoshi Tomoe, Tomoko Watanabe, Corrosion 2009 Conference, paper 09568, NACE International, 2009.
[11] "EFFECT OF SCRATCHING ON GALVANIC CORROSION IN OIL AND GAS ENVIRONMENTS", T. Hara and H. Aaahi, H. Kaneta, Corrosion 97 Conference paper 17 NACE International, 1997.
[12] LIMITATIONS FOR THE APPLICATION OF 13CR STEEL IN OIL AND GAS Production ENVIRONMENTS, Sytze Huizinga and Wlllem E. Liek, Corrosion 97, Conference Paper, 39, NACE International, 1997.
[13] "THE APPLICATION LIMITS OF ALLOYED 13%Cr TUBULAR STEELS FOR DOWNHOLE DUTIES", Corrosion 98, Conference paper 94, NACE International, 1998.
[14] "Coiled Tubing, the next generation, Ali Afghoul, et al, Oilfield Review, pp38-57. Spring 2004
[15] Formation Damage and Reservoir Considerations for Overbalanced and Underbalanced CT Operations, D. Brant Bennion,F . Brent Thomas,A .K.M. JamaluddinT,. Ma, and C. Agnew, 6th International Conference on Coiled Tubing Technologies, Houston, Texas, Oct. 27-29, 1997
Author Information
  • Chemistry Department, the Petroleum Institute, Abu Dhabi, UAE

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  • APA Style

    Paul Rostron. (2014). Effect of Mechanical Damage during Well Completion Activities on High Chrome Steel Tubulars in High H2S and CO2 Environments. International Journal of Oil, Gas and Coal Engineering, 2(1), 7-10. https://doi.org/10.11648/j.ogce.20140201.12

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    ACS Style

    Paul Rostron. Effect of Mechanical Damage during Well Completion Activities on High Chrome Steel Tubulars in High H2S and CO2 Environments. Int. J. Oil Gas Coal Eng. 2014, 2(1), 7-10. doi: 10.11648/j.ogce.20140201.12

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    AMA Style

    Paul Rostron. Effect of Mechanical Damage during Well Completion Activities on High Chrome Steel Tubulars in High H2S and CO2 Environments. Int J Oil Gas Coal Eng. 2014;2(1):7-10. doi: 10.11648/j.ogce.20140201.12

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  • @article{10.11648/j.ogce.20140201.12,
      author = {Paul Rostron},
      title = {Effect of Mechanical Damage during Well Completion Activities on High Chrome Steel Tubulars in High H2S and CO2 Environments},
      journal = {International Journal of Oil, Gas and Coal Engineering},
      volume = {2},
      number = {1},
      pages = {7-10},
      doi = {10.11648/j.ogce.20140201.12},
      url = {https://doi.org/10.11648/j.ogce.20140201.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ogce.20140201.12},
      abstract = {High concentrations of H2S and CO2 make oil producing wells highly corrosive to normal steels alloys, such as carbon steel. The usual solution to this is high chrome steels alloys, such as ferritic stainless steel, i.e. 13Cr. These steels have a good service record in such environments, especially at operating temperatures below 150°C. However the passive film which provides protection can be easily damaged by mechanical activities such as wirelining. The lack of repassivation in these environments means that once damaged by mechanical action these tubulars suffer extensive localized corrosion. A comparison is made of the different workover methods which can exacerbate this problem, particularly wirelining. Where possible we recommend the use of coiled tubing.},
     year = {2014}
    }
    

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    AB  - High concentrations of H2S and CO2 make oil producing wells highly corrosive to normal steels alloys, such as carbon steel. The usual solution to this is high chrome steels alloys, such as ferritic stainless steel, i.e. 13Cr. These steels have a good service record in such environments, especially at operating temperatures below 150°C. However the passive film which provides protection can be easily damaged by mechanical activities such as wirelining. The lack of repassivation in these environments means that once damaged by mechanical action these tubulars suffer extensive localized corrosion. A comparison is made of the different workover methods which can exacerbate this problem, particularly wirelining. Where possible we recommend the use of coiled tubing.
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