Drilling & Well Completion

work string

The Versatile Work String: A Vital Tool in Drilling, Completion, and Pipeline Construction

The term "work string" in the oil and gas industry refers to a specialized string of equipment suspended in a well or pipeline, designed to perform specific tasks. While the term itself is simple, its applications are diverse, playing crucial roles in drilling, well completion, and pipeline construction.

1. Work Strings in Drilling & Well Completion:

In drilling operations, the work string consists of drill pipe or tubing, connected to a specialized tool or device designed to carry out specific tasks. This could be anything from:

  • Squeeze Cementing: A work string equipped with a cementing head allows for the injection of cement into the wellbore to seal off zones, prevent fluid migration, or reinforce casing.
  • Fishing Operations: When tools or equipment get stuck in the wellbore, a work string equipped with specialized fishing tools helps retrieve them. This can involve using magnetic tools, grapples, or specialized jars designed to break the stuck object loose.
  • Well Stimulation: Work strings can be used to inject chemicals or fluids into the formation, stimulating production by improving reservoir permeability. This may involve using a coiled tubing work string, which is flexible and can be used to reach tight spots.

2. Work Strings in Pipeline Construction:

In pipeline construction, particularly during river crossings, a work string serves a different, but equally vital purpose. Here, the work string consists of a string of "washpipe" which replaces the pilot string used to steer the directionally drilled path under the river.

  • Maintaining a Stable Passage: The washpipe work string remains in place under the riverbed, providing a stable passage for the actual pipeline to be pulled across. It's removed only after the pipeline is safely in place.
  • Minimizing Environmental Impact: This method minimizes the disruption to the riverbed, as the smaller washpipe string reduces the risk of sediment erosion compared to larger pipeline sections.

In Conclusion:

The work string, despite its simple name, plays a critical role in various stages of oil and gas operations. From facilitating complex well completion tasks to ensuring smooth pipeline construction, the work string is a testament to the ingenuity and adaptability of the industry. As technology continues to evolve, the work string will likely be further refined and adapted to meet new challenges and improve efficiency in future projects.


Test Your Knowledge

Quiz: The Versatile Work String

Instructions: Choose the best answer for each question.

1. What is the primary function of a work string in drilling operations?

a) To provide a connection between the rig and the wellhead b) To circulate drilling fluid and remove cuttings c) To perform specialized tasks in the wellbore d) To house the drilling motor and drill bit

Answer

c) To perform specialized tasks in the wellbore

2. Which of the following is NOT a typical application for a work string in well completion?

a) Squeeze cementing b) Fishing operations c) Well stimulation d) Running casing

Answer

d) Running casing

3. What type of work string is often used in well stimulation to access tight spots?

a) Drill pipe b) Tubing c) Coiled tubing d) Casing

Answer

c) Coiled tubing

4. What is the primary function of a washpipe work string in pipeline construction?

a) To transport drilling fluid b) To hold the pipeline in place during construction c) To create a stable passage for the pipeline d) To support the weight of the pipeline

Answer

c) To create a stable passage for the pipeline

5. Why is the use of a washpipe work string beneficial in river crossings?

a) It reduces the risk of damage to the riverbed b) It allows for faster pipeline construction c) It eliminates the need for directional drilling d) It prevents the pipeline from floating

Answer

a) It reduces the risk of damage to the riverbed

Exercise:

Scenario: You are working on a well completion project that requires a squeeze cementing operation.

Task: 1. Describe the specific components of the work string that would be used in this operation. 2. Explain how the work string is used to successfully complete the squeeze cementing task.

Exercice Correction

**Components of the Work String for Squeeze Cementing:** * **Tubing:** The primary component of the work string, providing the necessary length and strength to reach the target zone. * **Cementing Head:** A specialized tool designed to control the flow of cement slurry into the wellbore. This head typically includes valves, pressure gauges, and a central passage for cement circulation. * **Cementing Plugs:** These are placed above and below the cementing head to isolate the cementing zone and prevent premature cement setting. * **Centralizers:** These devices are attached to the tubing to help ensure the cementing head is centered in the wellbore, preventing the cement from bridging or channeling. **Operation:** 1. **Preparation:** The work string is assembled and lowered into the wellbore. 2. **Placement:** The work string is positioned at the target zone, ensuring the cementing head is positioned correctly. 3. **Cementing:** The cement slurry is pumped through the tubing and out the cementing head, filling the designated section of the wellbore. 4. **Displacing:** After the cement is placed, the cement slurry is displaced with a fluid that is compatible with the cement, ensuring the cement sets properly. 5. **Removal:** Once the cement is set, the work string is retrieved from the wellbore.


Books

  • "Drilling Engineering" by John A. Lee - A comprehensive textbook covering drilling operations, including sections on work string applications.
  • "Well Completion Engineering" by Robert L. Galloway - Details well completion techniques, with relevant information on work strings for various tasks.
  • "Pipeline Engineering: A Practical Guide to Design and Construction" by Richard K. Smith - Provides an overview of pipeline construction, including discussions on washpipe work strings for river crossings.

Articles

  • "Workstring Design Considerations for Well Intervention Operations" - SPE Journal (2018) - This article delves into the complexities of work string design for specific interventions.
  • "Best Practices for Squeeze Cementing Operations" - Oilfield Technology Magazine (2020) - Discusses work string use in squeeze cementing and the importance of proper equipment selection.
  • "River Crossing Techniques in Pipeline Construction" - Pipeline & Gas Journal (2021) - This article highlights the use of washpipe work strings in river crossings and their environmental benefits.

Online Resources

  • Society of Petroleum Engineers (SPE) - The SPE website offers a vast collection of articles, technical papers, and industry events related to drilling, completion, and pipeline construction, including information on work strings.
  • American Petroleum Institute (API) - API offers various standards and guidelines related to oil and gas operations, including specific standards for work string design and operation.
  • Oilfield Glossary (https://www.oilfield.slb.com/glossary/) - An excellent resource for definitions and explanations of oilfield terms, including "work string" and related equipment.

Search Tips

  • Use specific keywords: Instead of just "work string," try phrases like "work string drilling," "work string completion," or "washpipe work string pipeline."
  • Include industry terms: Add keywords like "oilfield," "wellbore," "pipeline," or "drilling" to refine your search.
  • Combine keywords with specific applications: For example, "work string squeeze cementing" or "work string fishing operations."
  • Utilize quotation marks: Enclosing phrases in quotation marks ("work string river crossing") can help find exact matches.
  • Use filters: Filter your search results by date, file type (pdf, doc), or source (journal, website).

Techniques

Chapter 1: Techniques

Techniques Employed with Work Strings

The effectiveness of a work string relies heavily on the techniques used to assemble, operate, and maintain it. These techniques are tailored to the specific task the work string is designed for, and often involve sophisticated equipment and specialized expertise. Here's a breakdown of common techniques associated with work strings:

Drilling & Well Completion:

  • Squeeze Cementing:

    • Cement slurry preparation: The correct cement mix is critical for successful squeeze cementing. This involves carefully selecting the cement type, additives, and water volume, taking into account the formation's characteristics and the desired outcome.
    • Cementing head deployment: The cementing head, a specialized tool attached to the work string, is designed to ensure proper placement and distribution of the cement.
    • Pressure control: Careful control of injection pressure is essential to avoid formation damage or fracturing.
    • Monitoring and evaluation: After cementing, the wellbore pressure is monitored to confirm successful isolation and cement hardening.
  • Fishing Operations:

    • Identifying the stuck object: First, the type and location of the stuck object must be identified using downhole logging or other methods.
    • Selecting the appropriate fishing tool: A variety of fishing tools exist, each designed for specific scenarios, such as magnetic tools for metallic objects, grapples for loose items, and specialized jars for breaking loose objects.
    • Lowering and engaging the fishing tool: The chosen fishing tool is carefully lowered into the wellbore and maneuvered to engage the stuck object.
    • Retrieval and verification: Once engaged, the tool and the stuck object are retrieved, with careful monitoring to ensure the process is successful.
  • Well Stimulation:

    • Coiled tubing deployment: For well stimulation using coiled tubing, the tubing is carefully spooled into the wellbore, ensuring smooth deployment and minimal friction.
    • Chemical injection: The chosen chemicals are injected into the formation through the coiled tubing, often at precise pressure and flow rates.
    • Stimulation techniques: A variety of stimulation techniques are employed, including acidizing, fracturing, and nitrogen injection, each suited for different reservoir conditions.
    • Production evaluation: Post-stimulation, the well's production is monitored to evaluate the success of the treatment.

Pipeline Construction:

  • Washpipe Installation:
    • Directional drilling: The pilot string is used to create the desired path for the pipeline under the riverbed.
    • Washpipe deployment: The washpipe string is carefully inserted into the path created by the pilot string, replacing it and providing a stable passage for the pipeline.
    • Anchor installation: The washpipe string is secured using anchor points at both ends of the river crossing.
    • Pipeline pull-through: The pipeline is pulled through the washpipe passage, minimizing disruption to the riverbed.
    • Washpipe removal: After the pipeline is in place, the washpipe string is removed, leaving minimal environmental impact.

These techniques highlight the specialized knowledge and expertise required for successful work string operations. Ongoing research and technological advancements continue to refine these techniques, improving efficiency, safety, and environmental considerations in the oil and gas industry.

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