Pipe flow of water-in-crude oil emulsions: Effective viscosity, inversion point and droplet size distribution

The present work is a comparative study of the pipe flow of water-in-crude oil emulsions. The pipe flow of emulsions based on six different crude oils (viscosities from 4.8 to 23.5mPas) and salt water (3.5% NaCl w/v, pH=7.3) were investigated experimentally using a small scale flow loop. The formati...

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Bibliographic Details
Published in:Journal of petroleum science & engineering 2013-01, Vol.101, p.35-43
Main Authors: Plasencia, Jose, Pettersen, Bjørnar, Nydal, Ole Jørgen
Format: Article
Language:English
Subjects:
Applied sciences
Crude oil, natural gas and petroleum products
Droplet size
Droplets
Effective viscosity
Emulsions
Energy
Exact sciences and technology
Fluid dynamics
Fluid flow
Fluids
Fuels
Inversions
Phase inversion
Pipe flow
Viscosity
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Summary:The present work is a comparative study of the pipe flow of water-in-crude oil emulsions. The pipe flow of emulsions based on six different crude oils (viscosities from 4.8 to 23.5mPas) and salt water (3.5% NaCl w/v, pH=7.3) were investigated experimentally using a small scale flow loop. The formation of the emulsions was induced by the flow shear itself by circulating the oil–water mixture in a closed loop system (pipe ID 2.2cm). The effective viscosity of the emulsions as a function of the water fraction was calculated from pressure drop measurements. The phase inversion points and the in-situ droplet size distributions were also measured and a SARA analysis was made on all crudes. The point of inversion was observed to be fluid dependent. Not all fluids could be circulated through the inversion point due to prohibitive large pressure drops. All fluids turned to laminar flow conditions as the water cut increases towards the inversion point. The emulsions viscosities of six crudes show a similar increase with water cut up to about 30% where larger differences are observed. The effective viscosities were not sensitive to the mixture velocities (0.4–1.0m/s for constant water cut). Higher shear rates resulting from increasing the mixture velocity lead to the formation of smaller droplets. As the amount of dispersed water increases and gets closer to the inversion point larger droplets show up. The contribution in volume of these coarse droplets was also observed to be important. The experiments with the six crudes illustrate the complexity of oil–water flows and the challenges in understanding the coupling of surface chemistry and fluid flow. ► Effective viscosity of six crude oil based emulsions was measured using a flow loop. ► Inversion point and in-situ droplet sizes were measured for flow induced emulsions. ► Measurements are analyzed based on the physicochemical properties of the crudes. ► Influence of crude properties on droplet formation, inversion and effective viscosity. ► Results about different behaviors that crude emulsions present during pipe flow.
ISSN:0920-4105
1873-4715
DOI:10.1016/j.petrol.2012.11.009