Qualification of InLine DeWatering Technology

Westra, Remko; Knudsen, Borre; Bjartnes, Henrik; Ibouhouten, Boubker

doi:10.2118/166644-ms

Cited by 4 publications

(3 citation statements)

References 4 publications

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“…X Permits use of compact InLine DeWaterer, which typically handles liquids with GVF Ͻ 0.1 (Westra et al, 2013). X Liquid transport line, where some free gas can be tolerated.…”

Section: Qualification Testmentioning

confidence: 99%

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CompactSep™ - Compact Subsea Gas-Liquid Separator for High-Pressure Wellstream Boosting

Kristiansen

Sørensen

Nilssen

2016

Day 3 Wed, May 04, 2016

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Subsea separation has successfully been implemented on the Troll and Tordis fields operated by Statoil, Pazflor (Total), Marlim (Petrobras), and Perdido and Parque das Conchas/BC-10 (Shell). One objective of subsea separation is to separate gas and liquid to optimize working conditions for subsea pumps enabling high recovery factors. The objective of this work was to qualify a two-stage, compact, inline gas-liquid separation system with full turndown and slug handling capabilities, consisting of already proven components: one Gas-Liquid Cylindrical Cyclone (GLCC) and one InLine DeLiquidiser.CompactSep and its separator components and control system were qualified through a comprehensive, large-scale, real fluid and high pressure test programme at K-lab, a Statoil large scale test facility in Norway. This was done in a Joint Industry Project with Statoil as operator and Chevron, Petrobras, Total, and FMC Technologies as participants. The tests were performed with realistic fluids -59°API condensate and 25°API crude, recombined with natural gas -and at realistic pressure conditions, from 25 to 90 bar, with and without inlet slug flow. The separation requirements for the CompactSep system were a liquid output with gas volume fraction GVF Ͻ 0.1 and gas output with gas volume fraction GVF Ͼ 0.995 downstream the separator system. The pressure drop limits were 2 bar (soft target) and 5 bar (hard limit). Separate and stricter requirements were set for the system's individual separator components.The main results were: a wide operating range where the performance requirements were fulfilled, 99% to 99.9% separation efficiency, gas qualities (GVF) between 0.995 and 0.999, and liquid qualities (GVF) between 0.02 and 0.1. The operational boundaries were challenged to determine the onset of liquid carry over and gas carry under. The actual operating range exceeded the design and performance predictions. The system handled slugging and start-up scenarios. The control system stabilized the process with relatively slow control valves.The work developed and qualified an inline separator system with full turndown and slug handling capability. Qualification was performed at a wide range of realistic conditions and with high quality reference and performance measurements. Comparison of CompactSep and conventional subsea separation stations shows significant cost and weight reductions for the compact solution. What can be done subsea can be done topside. The CompactSep separator is a viable alternative to conventional vessels for topside applications where size and weight must be limited.

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“…X Permits use of compact InLine DeWaterer, which typically handles liquids with GVF Ͻ 0.1 (Westra et al, 2013). X Liquid transport line, where some free gas can be tolerated.…”

Section: Qualification Testmentioning

confidence: 99%

“…The DeGasser is well suited for stand-alone degassing applications or degassing upstream an inline dewatering unit, particularly at water-continuous conditions (Verbeek and Al-Moosani (2009), Westra et al, (2013)). …”

Section: Degassermentioning

confidence: 99%

CompactSep™ - Compact Subsea Gas-Liquid Separator for High-Pressure Wellstream Boosting

Kristiansen

Sørensen

Nilssen

2016

Day 3 Wed, May 04, 2016

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“…[32][33][34] In addition, adaptive adjustment of operating parameters according to changes in the physical parameters of the treated object cannot be realized in existing hydrocyclone products. [35][36][37][38][39] In field applications, the separation performance and utilization rate of hydrocyclones are extremely low. Therefore, an in-depth study of the relationship between the characteristic parameters of oil droplets and the separation performance of hydrocyclones is of great significance for the further optimization and field application of hydrocyclones.…”

Section: Introductionmentioning

confidence: 99%

Separation performance of hydrocyclone oil removal device influenced by oil droplet trajectory and oil drop characteristics

Yang

Jiang

et al. 2023

Science Progress

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Cyclone separation is an effective method for the treatment of oily wastewater from offshore oil production platforms. There is a lack of research on the impact of dispersion on the separation efficiency of current liquid–liquid separation hydrocyclones. A numerical simulation method was used to study the effect of the oil droplet characteristic parameters on the separation efficiency of a hydrocyclone oil removal device. An analysis of the trajectory of oil droplets revealed the oil removal mechanism of the hydrocyclone oil removal device: under the guidance of tangential velocity, the oil–water mixed fluid in the equipment generates different centrifugal forces due to the density difference, so oil and water adopt different flow paths to flow out. The effects of the particle diameter, velocity, and concentration of the inlet oil droplet on the separation efficiency were investigated. The droplet size had a positive effect on the separation efficiency, the oil concentration had a negative effect on the separation efficiency, and the speed of the oil drop was directly proportional to the separation efficiency within a certain range. These studies improved the basis for the efficient application of hydrocyclone oil removal devices.

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Emulsion separation

Krebs¹,

Akdim²

2023

Surface Process, Transportation, and Storage

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Qualification of InLine DeWatering Technology

Cited by 4 publications

References 4 publications

CompactSep™ - Compact Subsea Gas-Liquid Separator for High-Pressure Wellstream Boosting

CompactSep™ - Compact Subsea Gas-Liquid Separator for High-Pressure Wellstream Boosting

Separation performance of hydrocyclone oil removal device influenced by oil droplet trajectory and oil drop characteristics

Emulsion separation

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