Field Test of Compact Cyclonic Technology for Separation of Gas/liquid and Oil/water at The Gullfaks Field

Abstract: Several fields on the Norwegian Continental Shelf are in the decline phase with an increasing production of water and gas, often in combination with reduction in production pressure. The available area and weight for installation of new equipment on the platforms is often limited, and it is important to minimize both the operational and capital costs. Compact, inline separation devices can be a key technology for mature fields, and also for subsea fields at large water depths where the weight is critical. … Show more

“…[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.…”

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

“…[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.…”

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

Design of an axial hydrocyclone for preliminary water separation using CFD, RSM, and SUS

Optimum design of inline gas-liquid cyclone separator for wide range of inlet gas volume fractions