Production Goals in Development Goal Kit (Publication Date: 2024/02)

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Discover Insights, Make Informed Decisions, and Stay Ahead of the Curve:



  • Does well have production casing with tubing or liner?


  • Key Features:


    • Comprehensive set of 1261 prioritized Production Goals requirements.
    • Extensive coverage of 54 Production Goals topic scopes.
    • In-depth analysis of 54 Production Goals step-by-step solutions, benefits, BHAGs.
    • Detailed examination of 54 Production Goals case studies and use cases.

    • Digital download upon purchase.
    • Enjoy lifetime document updates included with your purchase.
    • Benefit from a fully editable and customizable Excel format.
    • Trusted and utilized by over 10,000 organizations.

    • Covering: Seismic Surveys, Pipeline Integrity Management, Fluid Management, Water Management, Log Analysis, Subsea Systems, Drilling Techniques, Production Goals, Well Construction, Artificial Lift Technologies, Sand Control, Offshore Production Facilities, Risk Management, Environmental Monitoring, Well Interventions, Hydraulic Fracturing, Reservoir Engineering, Fracking Process, Pumping Equipment, Well Testing, Well Stimulation, Oil Production, Well Completion, Safety Management Systems, Offshore Platforms, Safety Regulations, Casing Design, Reservoir Simulation, Enhanced Oil Recovery, Petroleum Refining, Wireline Services, Asset Integrity, Offshore Drilling, Equipment Maintenance, Directional Drilling, Well Logging, Corrosion Control, Pipeline Inspection, Safety Training, Flow Assurance, HSE Compliance, Rig Workers, Pipeline Infrastructure, Wireless Monitoring, Rig Communications, Production Automation Systems, Laboratory Services, Environmental Impact, Well Control, Emergency Response, Drilling Automation, Pipelines And Storage, Data Acquisition, Marine Operations




    Production Goals Assessment Dataset - Utilization, Solutions, Advantages, BHAG (Big Hairy Audacious Goal):


    Production Goals


    Production Goals refers to the metal pipes installed in a well to prevent it from collapsing and to help with the production of oil or gas. It includes both the production casing, which carries the extracted fluids to the surface, and the tubing or liner, which acts as a conduit for the extracted fluids.



    1. Production casing with tubing: Provides structural support, prevents blowouts, and allows for circulation of fluids during drilling.

    2. Liner: Provides a cost-effective alternative to production casing, minimizes drilling fluid losses, and eliminates the need for cementing.

    3. Corrosion-resistant casing: Offers protection against corrosion from harsh downhole environments, prolongs the life of the well, and reduces maintenance costs.

    4. Expandable casing: Allows for increased production as the well′s productivity declines over time, increasing the overall lifespan of the well.

    5. Dual casing strings: Provides support for unstable formations, isolates different zones for production, and reduces the risk of cross-contamination.

    6. Cementing: Seals off the annular space between the wellbore and casing, preventing fluid migration, and ensures zonal isolation for effective production.

    7. Casing centralization: Ensures the proper placement of the casing during cementing, improves cement bond quality, and increases the well′s structural integrity.

    8. Casing pressure tests: Detects any leaks or weak points in the casing before production, decreases the risk of well failure, and ensures safety for workers on site.

    9. Annulus monitoring systems: Monitors cement integrity, detects any potential leaks, and provides early warning alerts to prevent blowouts and other well hazards.

    10. Routine casing inspections: Identifies any potential damage or failures in the casing, allows for timely repairs or replacement, and ensures long-term productivity and safety of the well.

    CONTROL QUESTION: Does well have production casing with tubing or liner?


    Big Hairy Audacious Goal (BHAG) for 10 years from now:

    In 10 years, our goal for Production Goals is to have 100% of all wells equipped with production casing, tubing or liner, utilizing the most advanced and environmentally sustainable materials and technologies. We aim to revolutionize the industry by promoting a zero-waste approach to well construction and maintenance, drastically reducing the environmental impact of drilling operations while also increasing efficiency and reliability. Our ambition is to be the leader in Production Goals solutions, setting a new standard for safety, sustainability, and profitability in the oil and gas industry.

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    Production Goals Case Study/Use Case example - How to use:



    Case Study: Production Goals

    Synopsis of Client Situation:

    Our client, a large oil and gas company, was facing multiple challenges related to the construction of their Production Goals. They were concerned about the overall effectiveness and efficiency of their casing design, as well as the potential impact on production. The client was seeking a consulting firm to provide a detailed analysis of their Production Goals and make recommendations on whether their current design should include production casing with tubing or liner. The consultation was crucial, as the decision would directly impact the success of their operations and ultimately their bottom line.

    Consulting Methodology:

    To address the client′s concerns, our consulting team adopted a data-driven approach that incorporated both qualitative and quantitative research methods. The methodology utilized for this project included a literature review of consulting whitepapers and academic business journals, as well as an analysis of market research reports related to Production Goals. Additionally, our team conducted interviews with industry experts and held discussions with key stakeholders within the organization.

    Deliverables:

    Based on our research and analysis, we developed a comprehensive report that presented the benefits and drawbacks of each casing design – production casing with tubing and liner. The report also highlighted the key factors that influence the decision-making process, such as well type, formation characteristics, completion method, and production goals. Moreover, we provided a detailed cost analysis for each alternative, taking into consideration the initial investment and operational expenses.

    Implementation Challenges:

    One of the major challenges encountered during this project was the lack of reliable and up-to-date data on the client′s current well construction practices. This required our team to conduct additional research and obtain information from various sources to ensure the accuracy and validity of our findings. Additionally, we faced certain limitations in terms of the available resources and time constraints, which had to be carefully managed to ensure timely delivery of the report.

    KPIs:

    The key performance indicators (KPIs) identified for this project were the success rate of well completion, total cost of well construction, and production output. These KPIs were selected due to their direct impact on the client′s profitability and operational efficiency. The success rate of well completion was measured by the number of successful wells constructed using each casing design. The total cost of well construction was determined by comparing the recommended design with the client′s current practices. Finally, the production output was evaluated by analyzing the cumulative production of wells with different casing designs.

    Management Considerations:

    During the consultation process, our team worked closely with the client′s management to understand their objectives and concerns. We also provided regular updates on the progress of our research and engaged in ongoing discussions to ensure alignment with the client′s requirements. To address any potential implementation challenges, we developed a detailed action plan that included recommendations for improving the design and implementation of Production Goals in the future.

    Conclusion:

    Based on our detailed analysis and the collaboration with key stakeholders, we recommended that the client switch to production casing with tubing for their well construction. This design was found to have a higher success rate of well completion, lower total cost, and higher production output compared to using liners. Our client was able to implement this recommendation successfully, resulting in improved productivity and profitability for their operations.

    Citations:

    1. Singh, B., Sharma, S., Roy, M., & Gulati, N. Construction Problems in Oil Wells: A Review. International Journal of Innovative Research in Science, Engineering and Technology. Vol. 5, Issue 3, March 2016.

    2. Attia, A., Azeem R., Salam, B., & Guizani, A. Application of Casing Design Software for Drilling Optimization in Ultra-Deepwater Well. Journal of Petroleum Science and Engineering. Vol. 145, July 2016.

    3. Market Research Future. (2019). Production Goals Market Research Report - Global Forecast to 2023.

    4. Smith, L. (2016). How to Choose the Right Type of Production Goals. Casey Industrial Blog. [Blog post]. Retrieved from https://www.caseyind.com/blog/how-to-choose-the-right-type-of-well-casing/

    5. Tobin, B. (2019). Tips for Optimizing Well Construction Design and Improving Performance. SPE Gulf Coast Section. [Conference paper]. Retrieved from https://connect.spe.org/gulfcoast/general-information/viewdocument/tips-for-optimizing-well-construction-d

    Design and Complexity


    Design and complexity are two factors that play a crucial role in the construction of Production Goals. In well construction, the design refers to the methods, materials, and technologies used to construct the casing. On the other hand, complexity refers to the challenges and uncertainties associated with drilling and completion operations. The decision to use either production casing with tubing or a liner significantly impacts both the design and complexity of well construction. In this section, we will discuss the key design and complexity considerations for each casing design.

    Production Casing with Tubing:

    The design of production casing with tubing involves the use of multiple strings of steel pipes called casings. The production casing is the primary casing string that runs from the surface to the bottom of the wellbore, while the smaller-diameter tubing is run inside the production casing to facilitate fluid production. One of the major advantages of this design is its ability to withstand high pressure and temperature environments, making it suitable for deeper and more complex wells. Additionally, the production casing provides structural support to the wellbore, preventing it from collapsing due to the overburden pressure of the surrounding rocks.

    However, the use of production casing with tubing can also result in more complex well construction. This is mainly due to the need for multiple casing strings, which requires additional time and resources for installation. Moreover, the smaller diameter of the tubing makes it more prone to wear and tear, resulting in higher maintenance costs. Lastly, the design creates a larger footprint on the surface, which can be challenging in congested areas or when drilling multiple wells on a single location.

    Liner:

    A liner is a single large-diameter pipe that runs from the bottom of the wellbore to a designated depth above the productive zone. It is then cemented in place, creating a seal between the Production Goals and the formation. The use of a liner reduces the number of casing strings required, thus simplifying the construction process. This design is typically used in shallower wells with relatively low pressure and temperature conditions.

    However, using a liner may also limit the productivity of the well. As the cement seal between the casing and formation is not as strong as a production casing, there is a higher risk of fluid migration between formations. This can lead to a decrease in production over time. Furthermore, liners do not provide the same level of structural support as production casing, making them less suitable for deeper and more complex wells.

    In terms of complexity, the use of liners can reduce the overall cost and time required for well construction. However, it can also increase the risk of wellbore instability and difficulties in cementing, which can result in costly remediation attempts. Additionally, if the well conditions change during drilling, it may be challenging to make necessary adjustments to the casing design.

    Conclusion:

    In conclusion, both production casing with tubing and liner have their own design and complexity considerations. The selection of the appropriate design depends on various factors, including the characteristics of the reservoir, the depth of the well, the expected production, and the resources available. Our recommendation to our client was based on a comprehensive analysis of these factors, taking into account their current practices and long-term goals. By understanding these critical design and complexity considerations, our client was able to make an informed decision that positively impacted their production and overall profitability.

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