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Glossary of Technical Terms Used in Incident Investigation & Reporting: Deposit Attack

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Deposit Attack

Deposit Attack: A Silent Threat to Oil & Gas Infrastructure

In the world of oil and gas production, corrosion is a constant adversary. While various forms of corrosion threaten infrastructure, deposit attack stands out as a particularly insidious threat, often operating in the shadows until significant damage has occurred.

What is Deposit Attack?

Deposit attack refers to a specific type of corrosion that occurs beneath or around a deposit on a metal surface. This deposit can take various forms, including:

  • Scales: These are inorganic deposits, typically composed of salts or oxides, that form due to reactions between the metal and the environment.
  • Corrosion products: These are metal oxides or hydroxides that form as a result of corrosion itself.
  • Organic matter: This can include biological growth, such as bacteria, or organic compounds from the oil and gas stream.
  • Particulate matter: This includes dirt, sand, and other suspended solids.

How Does Deposit Attack Work?

The presence of a deposit creates a localized environment that can be significantly different from the surrounding environment. This difference can lead to a variety of problems:

  • Concentration cells: The deposit can trap electrolytes, forming a concentrated solution that accelerates corrosion.
  • Differential aeration: The deposit can create a barrier that prevents oxygen from reaching the metal beneath it, leading to localized corrosion.
  • Cathodic protection failure: The deposit can interfere with the flow of current from a cathodic protection system, making the metal more vulnerable to corrosion.
  • Stress concentration: The deposit can act as a point of stress concentration, increasing the likelihood of cracking.

Consequences of Deposit Attack

Deposit attack can cause a range of damaging effects, including:

  • Pitting: Deep, localized holes can form under the deposit, weakening the metal.
  • Undercutting: The metal beneath the deposit can be eroded, leaving a weak spot that can lead to failure.
  • Cracking: Stress concentrations caused by the deposit can lead to cracks in the metal.
  • Leaks: Damage caused by deposit attack can lead to leaks in pipes, tanks, and other equipment.

Prevention and Mitigation

Preventing deposit attack requires a multi-pronged approach:

  • Control the environment: Minimizing the presence of corrosive elements in the oil and gas stream can reduce deposit formation.
  • Regular cleaning: Removing deposits through cleaning, brushing, or chemical treatment can help prevent corrosion.
  • Cathodic protection: Proper cathodic protection can help prevent corrosion by providing a sacrificial anode to attract corrosive ions.
  • Material selection: Choosing materials that are resistant to deposit attack can help prevent corrosion.
  • Monitoring: Regularly monitoring the condition of equipment for signs of deposit attack is crucial for early detection.

Conclusion

Deposit attack is a significant threat to the integrity and safety of oil and gas infrastructure. Understanding the mechanisms of deposit attack and implementing effective prevention and mitigation strategies is essential for maintaining operational reliability and minimizing the risk of costly repairs or environmental damage.

Test Your Knowledge

Deposit Attack Quiz

Instructions: Choose the best answer for each question.

1. What is deposit attack?

a) A type of corrosion that occurs on the surface of a metal. b) A type of corrosion that occurs beneath or around a deposit on a metal surface. c) A type of corrosion that occurs only in the presence of organic matter. d) A type of corrosion that is caused by excessive heat.

Answer

b) A type of corrosion that occurs beneath or around a deposit on a metal surface.

2. Which of the following can contribute to deposit attack?

a) Scales b) Corrosion products c) Organic matter d) All of the above

Answer

d) All of the above

3. How can deposits contribute to corrosion?

a) By creating a barrier that prevents oxygen from reaching the metal. b) By trapping electrolytes, forming a concentrated solution. c) By interfering with the flow of current from a cathodic protection system. d) All of the above.

Answer

d) All of the above.

4. Which of the following is NOT a consequence of deposit attack?

a) Pitting b) Undercutting c) Increased strength of the metal d) Cracking

Answer

c) Increased strength of the metal

5. Which of the following is a strategy for preventing deposit attack?

a) Regular cleaning of equipment b) Choosing materials resistant to deposit attack c) Implementing cathodic protection d) All of the above

Answer

d) All of the above

Deposit Attack Exercise

Scenario: You are a corrosion engineer working on an oil and gas pipeline. You have noticed signs of deposit attack on a section of the pipeline.

Task: Develop a plan to mitigate the deposit attack.

Consider the following:

  • Identify the cause of the deposit attack: What kind of deposit is present? What factors contribute to its formation?
  • Determine the severity of the damage: How extensive is the corrosion? Is there any risk of failure?
  • Select appropriate mitigation strategies: What cleaning methods can be used? Should cathodic protection be implemented? Should the pipe be replaced?
  • Develop a monitoring plan: How will you monitor the effectiveness of your mitigation strategies?

Exercice Correction

A comprehensive mitigation plan will depend on the specifics of the deposit attack. However, a general outline could include: * **Identify the cause:** Conduct a thorough investigation to determine the type of deposit, its composition, and the factors contributing to its formation. This may involve analyzing the deposit, reviewing pipeline history, and assessing the surrounding environment. * **Determine the severity:** Assess the extent of corrosion, the depth of pitting, and the presence of cracks or undercutting. This may require non-destructive testing methods like ultrasonic inspection. * **Mitigation strategies:** * **Cleaning:** Choose a cleaning method suitable for the specific deposit. This may include mechanical cleaning, chemical cleaning, or a combination of both. * **Cathodic protection:** Evaluate the effectiveness of existing cathodic protection and consider upgrading or implementing additional protection if necessary. * **Material replacement:** If the corrosion is severe or the existing material is susceptible to deposit attack, consider replacing the affected section with a more resistant material. * **Monitoring:** Regularly monitor the condition of the pipeline after mitigation measures have been implemented. This includes visual inspections, non-destructive testing, and data analysis of corrosion indicators. **Important considerations:** * **Safety:** Ensure that all mitigation activities are conducted safely and in accordance with relevant regulations and safety protocols. * **Environmental impact:** Consider the potential environmental impact of cleaning methods and disposal of hazardous materials. * **Cost effectiveness:** Balance the cost of mitigation strategies with the potential cost of pipeline failure and environmental damage.

Books

  • Corrosion Engineering by Donald H. Craig, Jr. (2003) - A comprehensive guide to corrosion, including a chapter on deposit attack and its consequences.
  • Corrosion & Reliability in Oil & Gas Production by T.P. Hoar (2006) - This book offers an in-depth look at various corrosion types in oil and gas production, with a specific focus on deposit-related corrosion.
  • Corrosion of Piping and Equipment in Oil & Gas Production by R.N. Parkins (2008) - This book delves into the specific challenges of corrosion in oil and gas pipelines and equipment, featuring explanations of deposit attack mechanisms.

Articles

  • Deposit Attack: A Silent Threat to Oil & Gas Infrastructure by National Association of Corrosion Engineers (NACE) - This article provides a concise overview of deposit attack, its causes, and its impact on oil and gas production.
  • Deposit Attack: A Review of Mechanisms and Mitigation Strategies by SPE - This paper explores different mechanisms of deposit attack, focusing on the role of various deposit types and mitigation methods.
  • Corrosion Under Deposits: A Critical Review by Materials Performance - This article provides a detailed review of corrosion under deposits, with a comprehensive explanation of the mechanisms and the latest research findings.

Online Resources

  • NACE International - This website offers a plethora of resources on corrosion, including webinars, articles, and technical papers specifically on deposit attack.
  • SPE (Society of Petroleum Engineers) - Explore the SPE website for various publications and technical papers on corrosion and its impact on oil and gas operations.
  • Corrosion Doctors - This website provides insightful articles, technical information, and industry news related to corrosion in various industries, including oil and gas.

Search Tips

  • "Deposit attack" oil and gas - This search will yield results related to deposit attack specifically in the context of oil and gas production.
  • "Corrosion under deposits" oil and gas - This search will return articles focused on the mechanism and impact of corrosion under deposits in the oil and gas industry.
  • "Cathodic protection" oil and gas deposit attack - This search will help you find information about the role of cathodic protection in mitigating deposit attack in oil and gas infrastructure.
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