Field Implementation Experience of Metal PCP Technology in Cuban Heavy-Oil Fields

Guerra, Enrique; Sanchez, Alex; Matthews, Cameron Michael

doi:10.2118/120645-ms

Cited by 2 publications

(1 citation statement)

References 7 publications

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“…As the core part of the oil extraction device, the screw pump was invented by French engineer in the 20's in 20 centuries. But traditional screw pump has many limits, such as the temperature of the oil, gas-liquid chemical etching, those factors affect the life of screw pump and increase the cost [2] .…”

Section: Introductionmentioning

confidence: 99%

Research on the Impacts of Screw Speed on All-Metal Screw Pump

Meng

et al. 2014

AMM

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Compared with traditional screw pump,all-metal screw pump have more advantages in the oil extraction. In this paper, all-metal single screw pump's geometric model was made by PROE software; then the dynamic mesh technique was applied to mesh the model and constraint condition was applied in the ANSYS-FLUENT software. 3D flow field was numerical analyzed In that software, the impacts of screw speed on volume flow and volumetric efficiency were concluded, the conclusion can offer some valuable guidances to the all-metal single screw pump's design.

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Section: Introductionmentioning

confidence: 99%

Research on the Impacts of Screw Speed on All-Metal Screw Pump

Meng

et al. 2014

AMM

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Succesful Application of Metal PCP Rechnology to Maximize Oil Recovery in SAGD Process

et al. 2011

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Enhanced oil recovery methods (EOR) methods such as Steam Assisted Gravity Drainage (SAGD), Cyclic Steam Stimulation (CSS), steam drive, solvent and electric heating allow production of highly viscous crude oil at elevated operating temperatures (>160°C). The choice of artificial lift technique is critical to overall well performance. Therefore it has been a challenge to find a reliable artificial lift pumping system for heavy oil thermal recovery. Available options such as beam pumps and electrical submersible pumps (ESP), which are well proven in the petroleum industry, are not particularly well suited for thermal production. Progressing Cavity Pumps (PCP), with elastomeric stator, are economic to run and have performed well in heavy oil cold production. Since their elastomers are limited in temperature (<160°C), a metal PCP technology has been developed through numerous research works to meet the high temperature requirement of SAGD and other thermal recovery processes. This paper describes the successful application of KUDU PCM Vulcain TM metal PCP systems for SAGD process in Athabasca reservoir, beginning from 2007. We made analysis on production optimization in SAGD well pairs equipped with the PCM Vulcain™, which consists of a hydroformed metal stator and matching rotor utilizing special metallurgy to resist wear and maximize run life. In particular, the production with metal PCP in these wells reached the value of 200 m3/d at pump intake temperature of 200°C, performing volumetric efficiency of 82%. In general, the field results have demonstrated that the strong resistance of metal PCPs to chemical and mechanical degradation makes them a good alternative for the cold production of heavy and extra heavy oil with relatively high bottomhole temperatures and high aromatic, CO2 or H2S concentrations. This paper can be a guide for special heavy oil hot production PCP technologies to be spread and applied for EOR projects widely in the world.

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Field Implementation Experience of Metal PCP Technology in Cuban Heavy-Oil Fields

Cited by 2 publications

References 7 publications

Research on the Impacts of Screw Speed on All-Metal Screw Pump

Research on the Impacts of Screw Speed on All-Metal Screw Pump

Succesful Application of Metal PCP Rechnology to Maximize Oil Recovery in SAGD Process

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