Reservoir Engineering

Wettability

Wettability: The Key to Understanding Oil & Gas Reservoirs

In the oil & gas industry, understanding the wettability of a reservoir is crucial for efficient production and recovery. Wettability refers to the tendency of a fluid to spread or adhere to a solid surface. In simpler terms, it determines which fluid (oil, water, or gas) prefers to "stick" to the rock surface of a reservoir.

Why is wettability important?

  • Reservoir Performance: Wettability directly impacts the flow of fluids in the reservoir. A water-wet reservoir, where water preferentially adheres to the rock, will have higher water saturation and potentially hinder oil production. Conversely, an oil-wet reservoir will have higher oil saturation and potentially lead to higher oil recovery.
  • EOR (Enhanced Oil Recovery): Understanding wettability is critical for designing and implementing successful EOR strategies. Some EOR techniques, like chemical flooding, target specific wettability alterations to improve oil recovery.
  • Reservoir Modeling: Accurate reservoir simulations require reliable information on wettability to predict fluid flow and production behavior.

Measuring Wettability

While determining the exact wettability of a reservoir formation is complex, various techniques are employed to assess the dominant wetting phase:

  • Contact Angle Measurement: Analyzing the contact angle between a fluid droplet and the rock surface helps determine the preferred wetting phase.
  • Amott-Harvey Test: This laboratory method measures the relative wettability of a core sample by comparing the amount of oil and water displaced by a specific fluid.
  • Nuclear Magnetic Resonance (NMR): NMR can provide information about the pore size distribution and fluid saturation, which can be used to infer wettability.
  • Scanning Electron Microscopy (SEM): SEM allows visualization of the rock surface and can reveal the distribution of oil and water, indicating the dominant wetting phase.

Factors Influencing Wettability

Several factors can influence the wettability of a reservoir formation:

  • Rock Composition: The type and composition of the rock surface play a significant role. For example, clay minerals can promote water-wet conditions, while organic matter can lead to oil-wetting.
  • Fluid Composition: The presence of surfactants, salts, or other components in the fluids can alter the wettability of the rock.
  • Reservoir Temperature and Pressure: These parameters can influence the interfacial tension between fluids and rock, affecting wettability.
  • Reservoir History: The flow of fluids over time can change the wettability of the reservoir, especially during production.

Challenges in Wettability Determination

  • Heterogeneity: Reservoirs are often heterogeneous, with different wettability characteristics in different zones. Determining average wettability can be challenging.
  • Dynamic Nature: Wettability can change over time due to fluid flow, temperature variations, and other factors.
  • Limited Sampling: It is not always possible to obtain representative samples of the entire reservoir, making it difficult to assess the overall wettability.

Conclusion

Wettability is a crucial parameter in oil & gas reservoir characterization and production. Understanding the dominant wetting phase allows for better reservoir modeling, enhanced oil recovery strategies, and improved production forecasts. Further research and advancements in measurement techniques are essential to better characterize wettability and optimize reservoir management for efficient and sustainable oil and gas production.

Test Your Knowledge

Wettability Quiz

Instructions: Choose the best answer for each question.

1. What does wettability refer to in the context of oil and gas reservoirs?

a) The ability of a fluid to flow through porous rock. b) The tendency of a fluid to spread or adhere to a solid surface. c) The amount of oil or gas present in a reservoir. d) The pressure at which fluids are released from a reservoir.

Answer

b) The tendency of a fluid to spread or adhere to a solid surface.

2. Why is wettability important for reservoir performance?

a) It determines the size of the reservoir. b) It influences the flow of fluids in the reservoir. c) It indicates the age of the reservoir. d) It measures the pressure of the reservoir.

Answer

b) It influences the flow of fluids in the reservoir.

3. Which of the following techniques is used to measure wettability?

a) Seismic imaging b) Gravimetric analysis c) Contact angle measurement d) Core drilling

Answer

c) Contact angle measurement

4. Which of the following factors can influence the wettability of a reservoir?

a) The temperature of the surrounding air b) The type of rock in the reservoir c) The size of the reservoir d) The presence of nearby trees

Answer

b) The type of rock in the reservoir

5. What is a challenge in determining the wettability of a reservoir?

a) The presence of oil and gas b) The availability of sophisticated equipment c) The heterogeneity of the reservoir d) The depth of the reservoir

Answer

c) The heterogeneity of the reservoir

Wettability Exercise

Scenario:

You are an engineer working on an oil & gas project. You are tasked with evaluating the wettability of a new reservoir before starting production. You have collected core samples from different locations in the reservoir and are analyzing them in the lab.

Task:

  1. List three different techniques you would use to determine the wettability of the core samples.
  2. Explain how you would interpret the results of each technique to understand the dominant wetting phase in the reservoir.
  3. Discuss at least two challenges you might encounter while determining the wettability of this specific reservoir, based on the information you have collected.

Exercice Correction

**1. Techniques:** * **Contact Angle Measurement:** Observe the contact angle between a fluid droplet (water or oil) and the rock surface. A higher contact angle indicates a preference for the other fluid (e.g., high contact angle with water indicates oil-wet). * **Amott-Harvey Test:** Measure the relative wettability by comparing the amount of oil and water displaced by a specific fluid (usually brine). This test provides a quantitative measure of the dominant wetting phase. * **Scanning Electron Microscopy (SEM):** Visualize the rock surface at high magnification. This can reveal the distribution of oil and water within the pores, indicating the dominant wetting phase. **2. Interpretation:** * **Contact Angle Measurement:** A high contact angle with water indicates oil-wet conditions, while a high contact angle with oil indicates water-wet conditions. * **Amott-Harvey Test:** A high Amott-Harvey index indicates water-wet conditions, while a low index indicates oil-wet conditions. * **SEM:** The presence of more water-filled pores suggests water-wet conditions, while more oil-filled pores suggests oil-wet conditions. **3. Challenges:** * **Heterogeneity:** The collected core samples may represent only a small portion of the reservoir, potentially leading to inaccurate conclusions about the overall wettability. * **Dynamic Nature:** The wettability of the reservoir can change over time due to fluid flow, temperature variations, and other factors. Therefore, the initial analysis may not accurately reflect the long-term wettability characteristics.

Books

  • Reservoir Engineering Handbook by Tarek Ahmed
  • Fundamentals of Reservoir Engineering by L.P. Dake
  • Petroleum Engineering Handbook by William D. McCain, Jr.
  • Enhanced Oil Recovery by J.J. Sheng

Articles

  • "Wettability: An Overview" by M.J. Buckley and J.C. S. M. Oliveira, SPE Journal, vol. 4, no. 2, pp. 105-119, 1999.
  • "Wettability Alteration: A Review of Recent Advances" by D.H. Smith and J.J. Sheng, SPE Production & Operations, vol. 24, no. 1, pp. 117-127, 2009.
  • "The Impact of Wettability on Oil Recovery" by R.G. Bentsen and J.J. Sheng, SPE Reservoir Evaluation & Engineering, vol. 1, no. 2, pp. 99-106, 1998.

Online Resources

  • SPE (Society of Petroleum Engineers): www.spe.org (Search for "wettability" in the SPE publications database).
  • OnePetro: www.onepetro.org (Comprehensive database of oil & gas technical information).
  • The University of Texas at Austin, Department of Petroleum & Geosystems Engineering: https://www.utexas.edu/cogs/ (Access research papers and resources related to reservoir engineering).

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