Oil-water separation in a cylindrical cyclone with vortex finder

Zhang, Jian; He, Yun-teng; Liu, Shuo; Xu, Jing-yu

doi:10.1063/5.0085029

Cited by 14 publications

(3 citation statements)

References 29 publications

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“…The separation of cyclone pipe takes advantage of the density difference of the miscible medium to achieve efficient separation of different media through the motion paths generated by different centrifugal forces of the rotating flow field. According to the different rotation methods and inlet and outlet structures, the swirl tube separator can be divided into columnar cyclone separator and guide vane type cyclone separator [6,7,8] .…”

Section: Cyclone Pipe Separation Modelmentioning

confidence: 99%

Technologies and Applications of Pipeline-type Oil-gas-water Separation

Zhang

Su²,

Han³

et al. 2023

J. Phys.: Conf. Ser.

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The separation of oil, gas, and water mixture is an important process in the production of crude oil. Traditional separation tanks are large, heavy, long in separation time, and high cost to manufacture. This paper introduces a separation technology with the main characteristics of the pipeline structure. This technology uses the principles of centrifugation, expansion, air flotation, and gravity separation. Pipes and other equipment are the core equipment, which has the advantages of flexible process composition, small footprint, and high separation efficiency. This technology can be used for rapid oil, gas, and water separation, solving the problems of expansion, upgrading old oilfield stations, realizing the purpose of re-injection of water in-situ, energy saving, and reducing emissions.

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Section: Cyclone Pipe Separation Modelmentioning

confidence: 99%

Technologies and Applications of Pipeline-type Oil-gas-water Separation

Zhang

Su²,

Han³

et al. 2023

J. Phys.: Conf. Ser.

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“…In the oil and gas production process, the mixed fluids produced from a wellbore always contain gas, oil and water, so two-or three-phase flow can occur in the transportation pipeline. In order to separate different phases, some conventional separators can be used [6][7][8]. However, the configuration of conventional separators not only occupies considerable space, but could also be dangerous because of the entrainment phenomenon, so they are not suitable for use in off-shore platforms or for placement on the seabed.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Effect of Side Arm Orientation of the T-Junction on Gas–Liquid Stratified Flow

Zhang,

Cui,

et al. 2023

Processes

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T-junctions are important structures used in a number of industries to separate gas and liquid. This work studied the effect of the orientation of the side arm on the separation efficiency using a computational fluid dynamics (CFD) approach, and a new mechanical model is developed based on force analysis to predict the liquid carryout threshold. Laboratory experiments from published works are used to verify the CFD simulation and the new model. In this work, the angle of the side arm to the horizontal plane, α, and the angle of the side arm to the main arm’s axial direction, β, are investigated. The results show that with increasing β, the liquid carryover threshold increases accordingly, demonstrating that the liquid can be more easily carried to the side arm, while the liquid-carrying performance in the side arm is not sensitive to the inclination angle, β. Hence, in the new model, the inclination angle of is ignored. Experimental data are collected to validate the new model. The results show that this model can accurately predict the liquid carryover threshold, and the relative error is 4.16%.

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“…• Hydraulic cyclone technology [25][26][27]: Exploiting the density variance between oil and water, this approach employs cyclones or eddy currents to engender centrifugal force for oil-water segregation, which is an efficient oil removal technology. Nonetheless, its susceptibility to impact loads is inadequate, its capacity for suspended solids removal is moderate, it cannot separate emulsified oil, and treating recovery water from backwashing poses challenges.…”

mentioning

confidence: 99%

Oil Removal Technology for Water Injection in Low-Permeability Reservoirs: A Micro-Vortex Flow Approach

Zhao,

Xie,

Zhu

et al. 2024

Processes

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Gravity settling is a widely employed technology that removes oil from produced water in oilfields. However, with the transition of reservoir development to low-permeability reservoirs, conventional produced water settling tanks face limitations in the treatment efficiency and coagulant dosage. This study presents an innovative approach that optimizes sedimentation tank structures and integrates micro-vortex flow technology to enhance coagulation and flocculation. Through chemical dosage experiments, comparative experiments, and long-term observation, the micro-vortex flow reactor demonstrates a 9.4% increase in oil removal efficiency while reducing the coagulant dosage by 30.0%. The MOR equipment achieved a 20.5% higher oil removal efficiency than conventional methods while maintaining effluent oil and suspended solids below 20 mg/L. The long-term observation experiment of MOR equipment further highlights oil removal efficiency of 94.2% and the micro-vortex reactor’s excellent anti-pollution performance. The MOR equipment significantly reduces the land occupancy area by over 50% compared to conventional methods, thanks to the implementation of micro-vortex flow technology that effectively addresses the limitations associated with traditional settling tanks. This study contributes to advancing efficient and sustainable practices in waterflooding reservoirs, particularly for meeting stringent standards of water injection in low-permeability oilfields.

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Oil-water separation in a cylindrical cyclone with vortex finder

Cited by 14 publications

References 29 publications

Technologies and Applications of Pipeline-type Oil-gas-water Separation

Technologies and Applications of Pipeline-type Oil-gas-water Separation

Investigation of the Effect of Side Arm Orientation of the T-Junction on Gas–Liquid Stratified Flow

Oil Removal Technology for Water Injection in Low-Permeability Reservoirs: A Micro-Vortex Flow Approach

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