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Geomechanics knowledge plays a crucial role in hydraulic fracturing operations both in term of optimization design and sustainability of operations. Enjoy these slides by SkillUP Oil & Gas to learn more about hydraulic fracturing operations. We will develop later geomechanical concepts and theories that geomechanics engineer use to optimize hydraulic fracturing designs and ensure the sustainability of operations. #geomechanics #hydraulicfracturing #sustainability #optimization

The first offshore oil platform was built in 1897 off the coast of California. Over the following few decades, oil firms made significant investments in the technology. The placement of exploratory wells is the initial action taken upon discovery of an underwater oil deposit. The installation of each of these wells takes two to three months, and their purpose is to gather samples of the submerged rock layers. Large buildings on land are constructed using the same geological process; the only difference is that thousands of feet of underwater work must be done. After the exploratory well core samples provide more precise survey data, the businesses will map out the underlying structure and pinpoint the precise location of the production well. Production wells are the main source of any given offshore oil platform, and they’re what these platforms are put in place to run. Once the exact location of the production well is determined, engineers start developing plans of how to place the offshore oil well atop it. Source: Interesting Engineering 📌Knowledge not shared is knowledge lost! 👉Follow me and 👉 Activate Bell 🛎️for all posts as well as additional technical and educational content!💪🏆 #innovation #creativity #technology #letsconnect #future #education #knowledge #topvoice #amazing #engineering #research #science #design #physics #materials #maintenance #chemistry #oil #offshore #platform

🛢️ How do Engineers Even Out Flow Rates in Heterogeneous Reservoirs? Ever wondered about the challenge of balancing flow rates in reservoirs where rock properties vary extensively across the wellbore? Enter the world of heterogeneous reservoirs. 🤔 Understanding the Reservoir Spectrum: Homogeneous vs. Heterogeneous Homogeneous reservoirs tout uniform rock properties throughout, but in their heterogeneous counterparts, these properties fluctuate. As well length increases, particularly in horizontal wells, differing fluid flows become prevalent, often leading to premature water or gas breakthroughs. 💡 The Game-Changing Solution: Inflow Control Technology: So, how do engineers tackle this variability? Through inflow control technology, a game-changer in balancing disparate flow rates across different production zones within horizontal wells. 1️⃣ Balancing Act: These innovative technologies aim to equalize non-uniform oil production, deliberately slowing drainage in higher flow rate areas. This strategic pacing delays water and gas coning, extending the well's productive life. 2️⃣ Precision Choking: By selectively controlling unwanted fluids within specific reservoir zones, these technologies prevent the need to choke the entire well at the surface, thereby ensuring prolonged operational efficiency. 💡 Exploring Inflow Control Technologies: 1- Inflow Control Devices [ICDs]: Initially introduced to delay water and gas breakthrough, ICDs balance non-uniform oil production but lack post-entry fluid control. 2- Autonomous Inflow Control Devices [AICDs]: Similar to ICDs, AICDs delay premature water and gas breakthroughs and partially choke these fluids post-breakthrough, suited for medium to heavy viscosity oils. 3- Autonomous Inflow Control Valves [AICVs]: The pinnacle of innovation, AICVs not only delay premature water and gas breakthroughs but also choke back over 90% of unwanted fluids across a wide range of oil compositions. 📹 Dive Deeper: Curious to explore more about this revolutionary technology? Watch the attached video for an insightful overview. Explore more about these technologies: Baker Hughes ICDs, https://lnkd.in/dmFadFW9 Schlumberger's Inflow Control Devices. https://lnkd.in/dYYSRSsU #Engineering #OilAndGas #ReservoirManagement #InflowControl #Technology #FluidFlow #Production #Innovation #Challenges #HeterogeneousReservoirs #petroleumengineering #petroleum #schlumberger #bakerhughes

🎥 Discover Our New Pathways on the Training HUB! 🎥 Navigating the midstream talent crisis requires innovative solutions. Our latest whitepaper highlights critical pain points like the "brain drain" and the urgent need for modern training methods. That's why we've launched new pathway pages on our Training HUB to help you tackle these challenges head-on! 🔍 Explore our pathways: 🔹 Pipeline Engineering Pathway: https://hubs.ly/Q02BXgGX0 🔹 Crossing and Project Pathway: https://hubs.ly/Q02BXpfK0 🔹 Integrity Corrosion Focus Pathway: https://hubs.ly/Q02BXhJy0 🔹 Integrity Engineering Materials Pathway: https://hubs.ly/Q02BXjpp0 Our pathways provide targeted training to develop the skills needed to bridge the knowledge gap, attract new talent, and ensure effective knowledge transfer. 📄 Download the full whitepaper for in-depth insights and strategies: https://hubs.ly/Q02BXnqC0 Don’t let the talent crisis slow you down—empower your team with the right training! #TrainingSolutions #PipelineEngineering #TechnicalToolboxes #TalentDevelopment #ProfessionalGrowth #OilAndGas

This provides valuable insight into the intricate process of offshore oil drilling. The combination of advanced engineering and geological expertise to install exploratory and production wells in challenging environments is truly remarkable. It's fascinating how similar principles are applied to both underwater and land-based construction, yet the complexities of deep-sea operations add another layer of innovation. Offshore platforms are a testament to human ingenuity and the continued advancement of energy exploration.

🛢️ Optimizing drilling activities is of paramount importance for the overall success of an Oil and Gas project. Here are some key strategies that I have identified based on my experience that seamlessly blend expertise with innovation, ensuring success even in the most challenging environments: 1️⃣ Strategic Well Planning: Begin with a detailed well plan, meticulously addressing geological nuances, wellbore stability, and reservoir intricacies. 2️⃣ Technology Leap: Embrace cutting-edge tools like Rotary Steerable Systems (RSS), Measurement While Drilling (MWD), and Logging While Drilling (LWD) for enhanced accuracy and real-time insights. 3️⃣ Safety Culture: Prioritize safety with robust protocols, regular drills, and commitment to a safety-first mindset throughout all operations. 4️⃣ Sustainable Practices: Integrate eco-friendly drilling fluids, minimize waste, and adhere to environmental regulations, aligning projects with sustainability goals. 5️⃣ Optimized Drilling Fluids: Fine-tune drilling fluid compositions for specific conditions, improving wellbore stability and overall drilling performance. 6️⃣ Predictive Maintenance: Employ predictive maintenance strategies to minimize downtime, ensuring equipment reliability and longevity. 7️⃣ Remote Operations: Explore remote drilling capabilities, reducing on-site personnel and enhancing flexibility, especially in challenging or remote locations. #OilandGas #Drilling #Innovation #Optimization #Safety #Maintenance #Sustainability #Energy

Proud of our training team in bringing the learning pathways live 👏 Our offerings were backed by research highlight the upskilling problem ingrained in oil & gas industry. Key Findings: ✅The share of LinkedIn members working in the Oil and Gas industry has declined by a median of 21% (38 countries) between January 2016 and August 2023. ✅Since 2016, out of all the employees who left their roles in energy and materials companies, 42 percent moved to a different industry. This underlines the very competitive nature of attracting and retaining talent within the sector. ✅Hiring talent to backfill critical roles and fill new roles presents a unique set of obstacles in the energy sector. Experienced workers are retiring, mid-tenure employees have new opportunities in adjacent industries, and data indicates that fewer new employees are entering this workforce. The percentage of employees with less than two years of tenure dropped from 16 percent in 2012 to less than 4 percent in 2022.

𝗛𝗼𝘄 𝗧𝗼 𝗣𝗿𝗲𝗽𝗮𝗿𝗲 𝗙𝗶𝗲𝗹𝗱 𝗗𝗲𝘃𝗲𝗹𝗼𝗽𝗺𝗲𝗻𝘁 𝗣𝗹𝗮𝗻 (𝗙𝗗𝗣): Here are some essential steps to prepare an effective FDP: 1. Preliminary studies: The initial step involves gathering all available data about the field, such as reservoir characteristics, potential reserves, and existing infrastructure. This data is analyzed to determine the feasibility of development and identify any risks or challenges. 2. Technical analysis: Extensive reservoir modeling and simulation are performed to understand the behavior of the field under various production scenarios. 3. Economic evaluation: A thorough economic evaluation is conducted to assess the viability of the project. This includes estimating costs involved in drilling, production, infrastructure, and decommissioning, as well as evaluating potential revenues from the sale of hydrocarbons. Economic indicators such as net present value (NPV), internal rate of return (IRR), and payback period are calculated to gauge the financial profitability of the project. 4. Risk assessment: Potential risks and uncertainties associated with the field development are identified and quantified. These risks may include geological uncertainties, technical challenges, market fluctuations, environmental concerns, or regulatory hurdles. Mitigation strategies and backup plans are devised to address these risks. 5. Stakeholder engagement: Engaging with relevant stakeholders such as local communities, government agencies, environmental groups, and investors is crucial. 6. Schedule and project management: A detailed project schedule must be developed, considering all activities from drilling to production and eventual decommissioning. 7. Environmental and social impact assessment: An assessment of the potential environmental and social impacts of the project is crucial. 8. Regulatory compliance: The FDP must comply with all relevant regulatory requirements and obtain necessary permits and approvals before commencing any development activities. This may involve engaging with regulatory bodies and submitting various documentation for review. 9. Continuous monitoring and optimization: Field development is an ongoing process, and regular monitoring and optimization are essential. The FDP should outline mechanisms for monitoring production, reservoir performance, environmental impact, and safety aspects. The plan should also include contingencies for adapting to changing market conditions or technological advancements. 10. Regular review and updates: The FDP is a living document and should be regularly reviewed and updated throughout the field development lifecycle. This ensures that the plan remains responsive to evolving circumstances and incorporates lessons learned from ongoing operations. #oilandgaslife #studentsuccess #studentexperience

This successful collaboration demonstrates the benefits of combining innovative technology and expertise to overcome complex drilling challenges. It's an inspiring example of what can be achieved through effective partnerships. Learn more at https://lnkd.in/dshJTk3e

You've probably noticed massive offshore rigs floating in the middle of the ocean, and wondered, "How do oil rigs float on water?" The rig is enormous, with cranes on all sides and hundreds of employees working on it. You might think that the rig is rising from the ocean floor to maintain its stability, but it's not. It remains afloat on the open ocean. What exactly makes the oil rigs float on water, despite their massive weight and several pieces of equipment on the offshore platforms. The fact that rigs can float on the water is impressive. This feat is accomplished using physics and other scientific interventions to stay stable on the water. Also known as a floating production system, an oil rig is buoyant and can float on the water like big ships. The oil rigs have large mono-hulls and are fully equipped with processing facilities. Incredibly, oil rigs can stay afloat in one place for a prolonged time. Some oil rigs are fully functional, but some can also store extracted oil and gas. A lot goes into stabilizing the rigs to stay afloat on the water. Some drilling companies hook up Some oil rigs are semi-immersible due to their buoyancy chambers and internal ballast systems. These systems can lower or raise the rig to the desired height. Note that oil rigs can be specially designed by highly experienced engineers. These people can equip the floating production facilities with innovative, high-performing features. Comment please! Knowledge not shared is knowledge lost! Follow me and Ring it on my profile for more technical and education content! Source: BOP Disclaimer- I don't intended any copyright (DM me for credit & removal) #amazing #oil #geology #technology #engineering