Lessons Learned from 27 Years' Experience of Stimulation Vessel Design and Operation - a Case Study

Martin, Alberto; Austin, Simon A.; Glennie, A.; Martinez, Jean-Louis; Bradford, Steve

doi:10.2118/166243-ms

Cited by 2 publications

(2 citation statements)

References 8 publications

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“…The design and fabrication of the stimulation vessel used in this operation has been previously described in detail (Martin et al 2013). The three North Sea stimulation vessels that were originally launched in the early 1980s were the biggest and best in the industry at the time.…”

Section: Stimulation Vesselmentioning

confidence: 99%

An Advanced Proppant Based Fracture Stimulation Treatment on an Extended Reach Well in the Southern North Sea Utilising a New Purpose Built Vessel: a Case Study

Souza

Oliveira

Angheloiu

et al. 2015

SPE European Formation Damage Conference and Exhibition

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An extended-reach, S-shaped appraisal/development well drilled from a platform to prove up and drain a field extension in a Rotliegendes sandstone reservoir has been hydraulically fractured with a proppantbased stimulation treatment. The hydraulic fracture was a means to optimise the production rate and involved an injectivity test followed by a main treatment.The hydraulic fracture was performed utilising a stimulation vessel constructed in 2013 that is equipped to perform large-scale acid and proppant hydraulic fracturing and acid matrix stimulation treatments. This treatment was the first massive proppant hydraulic fracturing operation performed by the vessel. Prior to this operation, the vessel had been used to perform numerous acid-based stimulation operations.A total of 365.3 metric tonnes (730,536 lb) of resin-coated intermediate strength proppant was placed in the fracture, which is thought to be the largest single fracture treatment ever pumped in this particular national sector of the southern North Sea. A tip-screenout design was successfully used to achieve a high average proppant concentration of 23 kg per square metre (4.7 lb/ft 2 ), which equates to an average propped width of 1.3 cm (0.51 in). The large width was needed to achieve sufficient fracture conductivity for the expected reservoir permeability and to minimize convergent flow pressure drop in the fracture, due to the short perforated interval that was used. A very short perforated interval was used to minimize the risk of near-wellbore problems, due to the well deviation of 40 degrees in the payzone. This approach was successful, as the treatment was pumped as per program with no vessel NPT and no HSE incidents.Lessons learned included optimisation of perforating operations, methods to better optimise initiation of proppant flow to the blender, rationalising data sources, and effective use of equipment redundancy to ensure zero NPT.

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Section: Stimulation Vesselmentioning

confidence: 99%

An Advanced Proppant Based Fracture Stimulation Treatment on an Extended Reach Well in the Southern North Sea Utilising a New Purpose Built Vessel: a Case Study

Souza

Oliveira

Angheloiu

et al. 2015

SPE European Formation Damage Conference and Exhibition

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“…The lack of offshore pilots is probably not mainly because the offshore reservoirs differ from the onshore ones, but rather than the offshore logistics are more complex and storing capacity and available free space for mixing and pumping are more challenging. As reported by Martin et al (2013), in recent years, well stimulation performed by stimulation vessels of typical size around 3,000 DWT is routine work. Using a similar approach, but upscaled by one order of magnitude, may widen the range of use to also include vessels in offshore EOR operations.…”

Section: Introductionmentioning

confidence: 96%

Snorre In-Depth Water Diversion - New Operational Concept for Large Scale Chemical Injection from a Shuttle Tanker

Skrettingland

Ulland

Ravndal

et al. 2016

SPE Improved Oil Recovery Conference

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Declining oil production and increasing water cut in mature fields highlight the need for improved conformance control. Here we report on a successful in-depth water diversion treatment using sodium silicate to increase oil recovery at the Snorre field, offshore Norway, utilizing a new operational concept of using a stimulation vessel as a platform for the large-scale injection into a subsea well. A custom modified 35,000 DWT shuttle tanker was employed for the field pilot. This paper describes the vessel preparations and the large-scale interwell silicate injection operation. The operational aspects of the large-scale interwell silicate injection include; identification of injection vessel requirements, major vessel modifications, chemical logistic, general logistics to site, major equipment set-up on vessel, subsea connection, mixing and pumping schedules, onsite QC, and real time monitoring. Experience from these operations and lessons learned are included in this paper.After the injection of approximately 400,000 Sm 3 (113,000 Sm 3 preflush, followed by 240,000 Sm 3 of sodium silicate gelant and 49,000 Sm 3 of postflush fluid) at injection rates up to 4,000 Sm 3 /d, the injection from the vessel was stopped and the well was put on regular seawater injection. Following more than two years of regular production, transient pressure measurements, tracer testing and water cut data are presented from the ongoing comprehensive data acquisition program. These results demonstrate clearly the achieved in-depth flow diversion through a delayed breakthrough of injected tracers and lower water cut in the relevant production well.

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Lessons Learned from 27 Years' Experience of Stimulation Vessel Design and Operation - a Case Study

Cited by 2 publications

References 8 publications

An Advanced Proppant Based Fracture Stimulation Treatment on an Extended Reach Well in the Southern North Sea Utilising a New Purpose Built Vessel: a Case Study

An Advanced Proppant Based Fracture Stimulation Treatment on an Extended Reach Well in the Southern North Sea Utilising a New Purpose Built Vessel: a Case Study

Snorre In-Depth Water Diversion - New Operational Concept for Large Scale Chemical Injection from a Shuttle Tanker

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