Attendance to Deep Dive Tiebacks with Seafloor Pumping will teach you everything you need to know before attending MPUR Europe September 6th, 2018.
“The Shift to Tiebacks and Seafloor Pumping for Deepwater Developments” by Stuart L Scott
Reduced commodity prices are dramatically transforming development strategies for deepwater fields. Over the past two years, project teams have seen many options to improve project economics eliminated. The focus on value has pushed tieback and seafloor boosting to the forefront as the most effective means to achieve and sustain economic flow rates from new discoveries. This workshop maps out the case for seafloor boosting as an enabling technology for tieback developments. Tiebacks require different considerations than the hub-based seafloor boosting systems recently installed in the USA Gulf of Mexico and for mega project West Africa. Current and emerging seafloor boosting products are detailed along with advantages offered by difference approaches to tieback seafloor multiphase boosting.
This one-day workshop will focus on the various elements of subsea tieback architecture with an emphasis on clearing the Final Investment Decision. Attendees will learn about various subsea production schemes that meet near-term financial/production targets without sacrificing long-term viability.
While the long-term value of deepwater fields is well established, sanctioning of these projects in the current low-price environment is a challenge. Seabed boosting is emerging as an enabling technology; one that has matured to the point of being both affordable and reliable. When integrated with a subsea tieback completion, this system can liberate stranded fields by eliminating surface piercing structures and dramatically improving the economics of a project.
In some applications, this technology, introduced as part of an integrated system, can not only eliminate the need for a surface facility, but reduce the number of production wells being drilled. With the proper boosting system, early production can be regulated to ensure Capex recovery without risk to the formation or overall life of the field.
This Deep Dive Course will explore the various components of such a system and how they work together to improve overall recovery and reduce costs. Beyond the hardware and technology, this workshop will examine various development scenarios where a seabed booster system would impact the economics of a greenfield or redevelopment project.
Locations and Dates:
Paris, France - Sept. 5, 2018- Facility: Total Building
Session topics include:
Dr. Stuart L. Scott
Dr. Scott is a well-known technical authority in the areas of artificial lift, multiphase pumping, and production engineering/operations. From 2008-2016, he managed the Shell Deepwater Artificial Lift Technology Program and served as the Artificial Lift / Pumping Principal Technical Expert (PTE) for Shell globally. Before coming to Shell, Scott held the Bethancourt Professorship of Petroleum Engineering at Texas A&M University, was a faculty member at Louisiana State University (LSU) and worked for Phillips Petroleum Company in a variety of roles. He holds B.S. and Ph.D. degrees in Petroleum Engineering and a M.S. degree in Computer Science all from The University of Tulsa. Scott is a Distinguished Member of the SPE and an ASME Fellow. He also holds the ASME Worthington Medal for “eminent achievement in the evolving field of multiphase pumping.”
An industry think tank led by a team of prestigious academics, Petroleum ETC takes a rigorous approach to educating and advancing energy professionals in new and emerging technologies through organizing industry events and conferences, training sessions, field trials, data review, case studies and offering validation of key findings. Our unique position affords us the ability to extend our expertise as collaborators as well as consultants. Originally founded in College Station, Texas, our corporate headquarters moved to Houston, Texas in 2013. We started as an operation with knowledge-sharing events worldwide on topics ranging from multiphase pumping, multiphase metering, hydraulic fracturing to reservoir engineering.