期刊
FUEL
卷 290, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2020.120070
关键词
Surface chemistry; Crude oil-water emulsions; Interfacial stability; Inertial and viscous subrange; Analytical chemistry FT-ICR APPI Mass Spectroscopy; Droplet size relaxation coefficients; Asphaltene; Waxes; Naphthenic acids; Surface active components
资金
- internal SIP SURFLUX funding of SINTEF
- NFR project Improved Separator Design through Dense Packed Layer (DPL) Extraction and Treatment [285590]
Crude oils exhibit complex dispersion and emulsion flow behavior with water due to their rich chemical composition. The interfacial properties and surface chemistry of oil and water heavily influence the stability and separation, a new technique involving stirred tank cell with interfacial tension and analytical chemistry measurement is proposed for better understanding. Droplet stability parameters and surface-active components in crude oils play a significant role in emulsion droplet stability.
Crude oils due to its profuse chemical composition produce complex dispersion and emulsion flow behavior with water. The interfacial properties and surface chemistry of oil and water influence heavily the stability, flow behavior and separation of oil and water. In order to understand the crude oil/water emulsion stability better, a new technique is proposed that involves the combined use of a stirred tank cell with interfacial tension and analytical chemistry measurement. Droplet stability parameters like droplet size equilibrium and relaxation time scales have been evaluated and corroborated with surface chemistry of the crude oils. A deeper understanding on how surface-active component like asphaltenes, naphthenic acids and waxes proportion present in crude oils influence emulsion droplet stability is discussed. The 3 crude oils Gjoa, Grane and Bragge were characterized for asphaltenes, naphthanic acids and waxes which was further corroborated with their respective emulsion droplet behavior.
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