0000000000377019

AUTHOR

Niels Van Teeffelen

showing 3 related works from this author

Improving Separation of Oil and Water With a Novel Coalescing Centrifugal Pump

2018

Summary A novel centrifugal pump that increases oil-droplet sizes in produced water has been developed. This paper investigates a concept of pumping-pressure optimization, with respect to downstream separation efficiency, for the new pump. The investigation shows that the coalescing centrifugal pump always increased the separation efficiency of a downstream hydrocyclone. Furthermore, it is shown that the pumping pressure can be adjusted to maximize the improvement. Experimental results demonstrate how pumping conditions that minimize the volume fraction of droplets with a diameter smaller than the cut size of the hydrocyclone maximize the separation efficiency. Finally, it is demonstrated h…

Coalescence (physics)HydrocycloneSeparation (aeronautics)Energy Engineering and Power Technology02 engineering and technologyMechanics010502 geochemistry & geophysicsCentrifugal pump01 natural sciencesProduced waterFuel Technology020401 chemical engineeringEnvironmental science0204 chemical engineering0105 earth and related environmental sciencesSPE Production & Operations
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Automatic Operation and Control of a Novel Coalescing Centrifugal Pump for Improved Oil/Water Separation

2019

Summary In this paper we present the development and implementation of automatic operation and control for a pump/hydrocyclone produced-water-treatment system to maximize oil/water-separation efficiency. A so-called perturb-and-observe (P&O) algorithm is adapted for a novel centrifugal pump to continuously optimize the point of operation. The novel pump coalesces and increases the size of oil droplets in the produced water, resulting in a unique relationship between the coalescing effect and the point of operation, and allowing for the successful implementation of the P&O algorithm. The algorithm was implemented in two different setups, one measuring the droplet-size distribution be…

Coalescence (physics)Petroleum engineeringEnergy Engineering and Power Technology02 engineering and technology010502 geochemistry & geophysicsCentrifugal pump01 natural sciencesProduced waterFuel Technology020401 chemical engineeringEnvironmental scienceOil water0204 chemical engineering0105 earth and related environmental sciencesSPE Production & Operations
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Variable Step Size P&O Algorithms for Coalescing Pump/Deoiling Hydrocyclone Produced Water Treatment System

2020

This paper presents three variable step size P&O algorithms for optimizing the separation efficiency of a coalescing pump/deoiling hydrocyclone produced water treatment system. By continuously adjusting the pumping pressure, and subsequently the coalescing effect, the algorithms are used to minimize the oil concentration downstream the hydrocyclone. Due to the variable step size, the algorithms react rapidly to changes in the upstream produced water characteristics, at the same time as they reduce (or eliminate) steady-state oscillations. Based on both simulation and experimental testing, the study discusses advantages and disadvantages of the algorithms.

HydrocycloneTreatment systemcoalescencebusiness.industryp&o algorithmstep sizecentrifugal pumphydrocycloneProduced waterlcsh:QA75.5-76.95Computer Science ApplicationsVariable (computer science)Control and Systems EngineeringModeling and Simulationproduced waterlcsh:Electronic computers. Computer scienceProcess engineeringbusinessSoftwareMathematicsModeling, Identification and Control
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