Subsea TFL Systems - A Technology Update

Arendt, H.; Brands, Klaas W.

doi:10.2118/8524-pa

Cited by 2 publications

(1 citation statement)

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“…The TFL-system principle was to modify or adapt current wireline tools to articulate through a five-foot radius bend and transport them using a series of pistons that have rubber fins similar in design to a flow line pig with a pump and degassed produced fluid. 4,5,6,7 The flow lines and completion must allow a fluid circuit in the well. To operate the system in a lowpressure reservoir, the formation must be isolated during the TFL operation to allow the tools to be pumped back to the platform.…”

Section: System Descriptionmentioning

confidence: 99%

Increasing Production with an Innovative Through Flow Line (TFL) Multi-Zone Completion Design for a Major Norwegian Operator

Egil

Hansen

Lars

et al. 2001

Proceedings of SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractNorsk Hydro operates the Snorre Field in the Norwegian sector of the North Sea with a tension leg platform (TLP) and a sub-sea production system. The initial sub-sea wells were designed with completions that would allow through-flow-line servicing, and while the wells were functioning as designed, production had been declining. Therefore, Norsk Hydro felt that the completion concepts should be evaluated for new field developments. The ensuing investigation and development project led to a novel well completion concept, which is the first "intelligent well" subsea completion installation offshore Norway.This innovative design changes retain the original throughflow-line (TFL) service technique system and subsea infrastructure without any modifications, maximize production by introducing 7-in. tubing, and include hydraulically operated inflow control devices.The supplier and operator developed the concept during the winter 1998/1999 and designed the resulting system during spring 1999.License approval for prototype development and qualification was given in the summer of 1999, and the system components were in-house tested at the supplier base in Dallas during the fall of 1999. A thorough system qualification was performed at an independent Norwegian drilling and well test center during spring/summer of 2000. The qualification included a full test-well installation and necessary intervention activities to prove the functionality of the concept. The system was qualified during the summer of 2000. The first subsea well installation was done at Snorre and put on production in December 2000. The well completion consisted of a 4zone/interval design for improved reservoir management.The concept principles also have application for other type wells on platforms where modifications to the wellhead and tree are not feasible.The development process and qualification of the system has been conducted in a very short time period from idea to offshore implementation. This is mainly the result of a very focused personnel team with competent and dedicated personnel between supplier, operator, and 3 rd party testing contractor.This paper will discuss the improved system and testing that resulted from this project. The first new production system was installed in a side-tracked well, and the results of the completion will also be discussed.

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Section: System Descriptionmentioning

confidence: 99%

Increasing Production with an Innovative Through Flow Line (TFL) Multi-Zone Completion Design for a Major Norwegian Operator

Egil

Hansen

Lars

et al. 2001

Proceedings of SPE Annual Technical Conference and Exhibition

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Groundwater Monitoring: A Proven Sampling System for Environmentally Sensitive Areas

Welch

Dines

Shy

1994

SPE Health, Safety and Environment in Oil and Gas Exploration and Production Conference

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In a groundwater reservoir, pollutants generated by various industrial processes can be present, and in many cases, can be radioactive or hazardous for other reasons. Operational trends in the oilfield have continuously stressed operational efficiency, and with it, safety of personnel and the environment. Now, however, a pronounced increase in regulatory requirements has been noted, which attests to the fact that there is increased governmental awareness throughout the world of the existence of these potential dangers. Subsequently, the need to monitor groundwater sources to ensure that contamination resulting from pollutants does not exceed levels of safety has reached new levels of importance in industrial operations. A system that can respond to this need has recently been developed from proven oilfield technology. This system has the capability to monitor groundwater sources by sampling groundwater from potentially contaminated aquifers without damaging the wellbore or the well formation and efficiently segregating the sample into a safe, clean, and controlled environment. The system incorporates a subsurface-actuated isolation device, which is permanently installed as part of a borehole/well completion. Suspect groundwater sources can be sampled by running a multi-function electro-mechanical tool on electric line into this isolation device. Once the locking profile in the isolation device has been located, a sequence of events is initiated from the surface that ultimately results in a sample being captured within the isolation device. Since many contaminants are hazardous, the sampling system operates in a manner such that the well bore is protected from exposure to any of the sampled fluids, and at the same time, the formation is protected from exposure to wellbore fluids. After the sample(s) is captured, it is brought to the surface and transported in an intrinsically-safe, pressurized container to a laboratory for analysis.

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Subsea TFL Systems - A Technology Update

Cited by 2 publications

References 0 publications

Increasing Production with an Innovative Through Flow Line (TFL) Multi-Zone Completion Design for a Major Norwegian Operator

Increasing Production with an Innovative Through Flow Line (TFL) Multi-Zone Completion Design for a Major Norwegian Operator

Groundwater Monitoring: A Proven Sampling System for Environmentally Sensitive Areas

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