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Glossary of Technical Terms Used in Oil & Gas Processing: Secondary Recovery

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Secondary Recovery

Secondary Recovery: Boosting Oil Production After the Initial Rush

The initial phase of oil and gas production, known as primary recovery, typically recovers only a small percentage of the total oil in a reservoir. As the pressure within the reservoir naturally declines, production slows down. To overcome this challenge, oil and gas producers employ secondary recovery techniques, which involve injecting fluids into the reservoir to push the remaining oil towards the production wells.

Understanding the Need for Secondary Recovery:

Imagine a sponge filled with water. Squeezing it the first time releases a lot of water, but there's still plenty left inside. Similarly, primary recovery extracts oil using the natural pressure of the reservoir. However, much oil remains trapped in the porous rock. This is where secondary recovery steps in.

Common Secondary Recovery Methods:

Two primary methods are employed for secondary recovery:

  • Waterflooding: This involves injecting water into the reservoir to push the oil towards the production wells. Waterflooding is particularly effective in reservoirs with high permeability, allowing the water to move efficiently through the rock.
  • Gasflooding: This technique involves injecting a gas, such as nitrogen or carbon dioxide, into the reservoir. The gas displaces the oil and enhances the pressure, pushing more oil to the production wells. Gasflooding is effective in reservoirs with lower permeability.

How Waterflooding Works:

  1. Injection Wells: Water is pumped into the reservoir through injection wells strategically placed around the field.
  2. Pressure Boost: The injected water increases the pressure within the reservoir, pushing the remaining oil towards the production wells.
  3. Improved Recovery: This process allows for a higher percentage of oil to be extracted, boosting production beyond what is achieved by primary recovery alone.

Advantages of Secondary Recovery:

  • Increased Oil Production: Secondary recovery significantly increases the amount of oil extracted from a reservoir, improving the overall profitability of a project.
  • Extended Reservoir Life: By extending the production period, secondary recovery methods allow producers to extract oil from the reservoir for a longer period.
  • Environmental Benefits: Secondary recovery can reduce the environmental impact of oil extraction by decreasing the number of wells needed to produce a given amount of oil.

Challenges and Considerations:

  • Cost: Implementing secondary recovery methods requires significant investment in infrastructure, such as injection wells and pumping equipment.
  • Technical Expertise: Planning and executing secondary recovery projects require specialized expertise and sophisticated technologies.
  • Reservoir Characteristics: The effectiveness of secondary recovery techniques is heavily dependent on the specific characteristics of the reservoir, such as rock permeability and oil viscosity.

Conclusion:

Secondary recovery methods are essential tools for maximizing oil production and extending the lifespan of oil fields. By strategically injecting fluids into the reservoir, these techniques can significantly improve recovery rates and enhance the economics of oil and gas projects. As the world transitions towards cleaner energy sources, secondary recovery will play a crucial role in maximizing the value of existing oil and gas resources while minimizing their environmental impact.

Test Your Knowledge

Secondary Recovery Quiz

Instructions: Choose the best answer for each question.

1. What is the main purpose of secondary recovery techniques?

(a) To extract oil from newly discovered reservoirs. (b) To increase the rate of oil production in mature fields. (c) To prevent oil spills and leaks. (d) To refine crude oil into gasoline and other products.

Answer

(b) To increase the rate of oil production in mature fields.

2. Which of the following is NOT a common method for secondary recovery?

(a) Waterflooding (b) Gasflooding (c) Hydraulic fracturing (d) Steam injection

Answer

(c) Hydraulic fracturing

3. How does waterflooding work?

(a) By dissolving the oil and making it easier to extract. (b) By injecting water into the reservoir to increase pressure and push oil towards wells. (c) By replacing the oil with water, reducing the volume of oil in the reservoir. (d) By using water to dissolve and remove impurities from the oil.

Answer

(b) By injecting water into the reservoir to increase pressure and push oil towards wells.

4. What is a major advantage of secondary recovery?

(a) It reduces the cost of oil production. (b) It eliminates the need for drilling new wells. (c) It increases the amount of oil extracted from a reservoir. (d) It reduces the environmental impact of oil extraction.

Answer

(c) It increases the amount of oil extracted from a reservoir.

5. What is a major challenge associated with secondary recovery?

(a) The need for specialized equipment and expertise. (b) The risk of contaminating groundwater. (c) The high cost of extracting oil using these methods. (d) All of the above.

Answer

(d) All of the above.

Secondary Recovery Exercise

Problem: A hypothetical oil field has been producing oil for 10 years using primary recovery methods. The field is estimated to contain 100 million barrels of oil. Primary recovery has extracted 20 million barrels, leaving 80 million barrels remaining. The company wants to implement a secondary recovery method (waterflooding) to boost production. They anticipate recovering an additional 30% of the remaining oil through waterflooding.

Task:

  1. Calculate the total amount of oil that can be extracted through waterflooding.
  2. Calculate the total amount of oil that can be extracted from the field using both primary and secondary recovery methods.
  3. What percentage of the total oil in the field will be extracted using both primary and secondary recovery?

Exercice Correction

  1. Total amount of oil extractable through waterflooding: 80 million barrels * 30% = 24 million barrels.
  2. Total amount of oil extractable from the field: 20 million barrels (primary) + 24 million barrels (secondary) = 44 million barrels.
  3. Percentage of total oil extracted: (44 million barrels / 100 million barrels) * 100% = 44%

Books

  • Petroleum Engineering: Principles and Practices by John M. Campbell
    • Comprehensive overview of oil and gas production, including detailed sections on secondary recovery methods.
  • Reservoir Engineering Handbook by Tarek Ahmed
    • Covers all aspects of reservoir engineering, with dedicated chapters on secondary recovery techniques.
  • Enhanced Oil Recovery by D.L. Thomas
    • Focuses specifically on various techniques for increasing oil recovery, including secondary recovery methods.
  • Fundamentals of Enhanced Oil Recovery by A.G. Kantzas
    • Provides a detailed theoretical and practical understanding of different enhanced oil recovery methods, including secondary recovery.

Articles

  • "Secondary Recovery Methods: A Review" by A.K. Mehta and S.K. Sharma (Journal of Petroleum Technology, 2008)
    • A comprehensive review of various secondary recovery techniques and their applications.
  • "Waterflooding: A Critical Review" by J.P. Bissett (SPE Journal, 2004)
    • Examines the principles, challenges, and advancements in waterflooding technology.
  • "Gas Injection for Enhanced Oil Recovery: A Review" by M.R. Jafari and M.A. Zarrabi (Petroleum Science and Technology, 2012)
    • Covers the principles, types, and applications of gas injection methods for enhancing oil recovery.
  • "Recent Advances in Secondary Recovery" by S.A. Khan and M.A. Khan (Journal of Natural Gas Science and Engineering, 2017)
    • Explores recent developments and innovations in secondary recovery technologies.

Online Resources

  • SPE (Society of Petroleum Engineers): https://www.spe.org/
    • Provides a vast library of technical papers, research reports, and presentations related to oil and gas production, including secondary recovery.
  • OnePetro: https://www.onepetro.org/
    • A comprehensive online resource for oil and gas professionals, offering access to a wide range of technical publications and data.
  • Oil and Gas Journal: https://www.ogj.com/
    • Industry news and technical articles covering various aspects of oil and gas production, including secondary recovery.
  • Schlumberger: https://www.slb.com/
    • Provides technical information and case studies related to their products and services for oil and gas production, including secondary recovery.

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