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Collaborating Authors
subsea system
The course will provide the participant with an improved understanding of well intervention equipment, using historic and the new suite of API well intervention documents. Develop an understanding of equipment both legacy and new design. Address common subsea intervention industry questions with respect to Barrier requirements Capacities and Load cases Legacy vs. New Build - Is it fit-for-purpose? Barrier requirements Capacities and Load cases Legacy vs. New Build - Is it fit-for-purpose? Engineers who are users of subsea well intervention equipment, facilities and drilling engineers who enable hardware integration, and production engineers responsible for choosing appropriate operations to solve a subsea well issue.
This 1-day course provides participants with a background review of subsea production control systems and specific knowledge of Intervention Work-Over Control Systems (IWOCS) as they interact with subsea productions systems. This is followed by an interactive class discussion of operations scenarios, illustrating IWOCS usage and some situational challenges encountered during subsea hardware installation and well interventions. This course will give you a better understanding of how IWOCS differs from other control systems, how its tailored to hardware installation and well intervention work, and better understand the operating philosophies behind well control and well integrity. Laptop or Smart phone for Downloading the app for Poll Everywhere Participants should have some exposure to topic. Moderate experience or exposure to the topic will be a plus for the case study scenario session.
This course provides an overview of use/application of TR14 for intervention operations, and basic understanding of fatigue terminology and applications for intervention operations. Key considerations with relation to SS intervention: Common industry questions and Build a Client level understanding of Riser Analysis process Load cases and load classifications How the Analysis outputs are used to develop Well Specific Operating Guidelines Exercise โ Develop operating envelopes and watch circles. Exercise โ Develop operating envelopes and watch circles. Engineers who are users of subsea well intervention equipment during the design and operation, facilities, drilling and completions engineers who enable hardware integration, and production engineers responsible for choosing appropriate operations to solve a subsea well issue. All cancellations must be received no later than 14 days prior to the course start date.
Woodside Energy tapped Subsea7 to provide subsea installation services for the 7.2 billion Trion development in the deepwater Mexican Gulf. The field is located approximately 30 km south of the USโMexico maritime border and 180 km away from the Mexican coastline, at a water depth of 2600 m. Subsea7 described the contract award as "large," which it defines as having a value between 300 and 500 million. The project, which Woodside and Pemex are developing in partnership, involves a wet tree subsea system connected to an infield floating production unit (FPU). Subsea7 will be responsible for the engineering, construction, and installation of the subsea umbilicals, risers, and flowlines, as well as the associated subsea architecture.
- Government > Regional Government > North America Government > Mexico Government (1.00)
- Energy > Oil & Gas > Upstream (1.00)
To successfully mitigate production threats and assure flow, a production chemical must provide both high functionality and high activity. SLB Production Chemistry has developed and patented a pioneering dendritic technology that provides these properties, which in turn reduce the quantity of chemicals required and the cost of treatment for our customers. A dendrimer is a hyperbranched polymer that is a large, stable molecule with inherent low viscosity. This makes it ideal for developing highly effective, cost-efficient solutions across conventional, subsea, deepwater, and unconventional applications. It has been proved ideal for multifunctional, high-concentration products for delivery via long umbilical cables.
New opportunities are emerging in this important intervention space, from P&A and decommissioning to carbon capture and storage. Looking to network, access technical content, and explore the exhibition? At the SPE Subsea Well Intervention Symposium, attendees can network with industry experts who showcase the latest technology and operational developments. Learn more here about the event and why you should attend.
- Production and Well Operations (1.00)
- Reservoir Description and Dynamics > Storage Reservoir Engineering > CO2 capture and sequestration (0.86)
- Health, Safety, Environment & Sustainability > Environment > Climate change (0.86)
- Facilities Design, Construction and Operation > Offshore Facilities and Subsea Systems > Subsea production equipment (0.76)
Hear from these experts at the 2022 SPE Subsea Well Intervention Symposium on key trends they are seeing in the subsea well intervention space. At the SPE Subsea Well Intervention Symposium, attendees can network with industry experts who showcase the latest technology and operational developments. Looking to network, access technical content, and explore the exhibition? Learn more here about the event and why you should attend.
Starting with a broad look at the offshore oil and gas industry, including its history, current scope, trends, challenges and an overview of regulatory environments, this Topic examines the primary design considerations for offshore production facilities and identifies key drivers and decision factors in offshore project development. It goes on to describe the various types of platforms, surface components and subsea production facilities: their design features, equipment components operating considerations and areas of application. Included are discussions of offshore pipelines, production equipment and operations, and requirements for decommissioning and removal of offshore facilities. The presentation concludes with case studies of deepwater operations in West Africa and the Gulf of Mexico.
- North America > United States (0.33)
- North America > Mexico (0.33)
- Africa > West Africa (0.33)
Shell has begun production at Rydberg, a subsea tieback to its Appomattox production hub in the Mississippi Canyon area of the US Gulf of Mexico (GOM). The pair of subsea wells are expected to flow 16,000 BOE/D at peak. Rydberg is a Norphlet-aged discovery located on Block 525 in about 2280 m of water. Shell was the first operator to bring an asset online in the Norphlet Corridor with Appomattox in 2019. "Rydberg will further boost production in the Norphlet Corridor at Appomattox, which is consistently one of our highest-producing assets," said Rich Howe, Shell deep water executive vice president.
The FPSO One Guyana has left drydock and is now quayside at the Seatrium yard in Singapore to begin topside integration work. The vessel, built by SBM Offshore for ExxonMobil, will be the fourth unit to be deployed at the Yellowtail development project in the Stabroek block, about 200 km offshore of Guyana. The FPSO is designed to produce 250,000 B/D of oil, an associated gas treatment capacity of 450 MMcf/D, and a water injection capacity of 300,000 B/D. It will be spread-moored in a water depth of about 1800 m and can store around 2 million bbl of crude oil produced from the Yellowtail development once it enters operation in 2025. The FPSO One Guyana will be the largest producing unit ever built by SBM.
- Asia (0.95)
- South America > Guyana > North Atlantic Ocean (0.30)
- Energy > Oil & Gas > Upstream (1.00)
- Water & Waste Management > Water Management > Lifecycle > Disposal/Injection (0.60)