Synthesis and application of castor oil maleate and castor oil maleate-styrene copolymers as demulsifier for water-in-oil emulsions

Synthesis and application of castor oil maleate and castor oil maleate-styrene copolymers as demulsifier for water-in-oil emulsions

Oil industry has encountered a series of difficulties associated with flow assurance of petroleum fluids, especially those related with stable emulsion formation. Such emulsified systems could present problems during transportation, handling, and refining, because of their relation to operational fa...

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Bibliographic Details
Published in:Fuel (Guildford) Vol. 269; p. 117429
Main Authors: Alves, Raissa S., Maia, Dayanne L.H., Fernandes, Fabiano A.N., Feitosa, Filipe X., de Sant'Ana, Hosiberto B.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-06-2020
Elsevier BV
Subjects:
Addition polymerization
Additives
Castor oil
Copolymers
Demulsifiers
Diameters
Emulsions
Fluid flow
Fourier transforms
Infrared analysis
Interfacial tension
Oil and gas industry
Oil characterization
Phase separation
Pollutants
Polymers
Size exclusion chromatography
Sodium chloride
Styrene
Surface tension
Surfactants
Tubes
Water-in-oil emulsions
BPO
St
MACO
PSK
WAT
MDD
ppm
rpm
TGA
SEC
THF
Castor oil
FTIR
IFT
W/O
Interfacial tension
Demulsifiers
DMA
API
Water-in-oil emulsions
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Summary:Oil industry has encountered a series of difficulties associated with flow assurance of petroleum fluids, especially those related with stable emulsion formation. Such emulsified systems could present problems during transportation, handling, and refining, because of their relation to operational factors, as follows: fluid viscosity, processing energy expenditure, and water coproduction. For this reason, the addition of interfacial active compounds, often polymers, is used in an attempt to phase separation in industrial processes. In this paper, five different chemical surfactants, referred to here as MACO 1, MACO 2, R1, R2, and R3, were synthesized based on castor oil. These additives were characterized by Fourier Transform Infrared (FTIR), Size-Exclusion Chromatography (SEC), and Thermogravimetrical Analyses (TGA). The demulsification activity was studied in synthetic emulsions by using two Brazilian crude oils and 30% (v/v) brine cut with 60 and 240 g/L NaCl, at neutral pH, and average droplet diameter of 10 μm. Bottle tests were carried out at 60 °C in graduated ASTM test tubes for 2 h, varying additive concentration from 100 to 5000 ppm. Interfacial tension measurements were performed to elucidate the demulsification activity in water-oil interface, at the same bottle test experimental conditions. These results were discussed on the basis of the oil characterization, mechanisms of demulsifying action, as well as interfacial tension data. Ward and Tordai equation was applied according to asymptotic approximations to evaluate additives diffusivity. The results show that demulsification is more significant for MACO 1, with maximum water resolution of around 90% for both emulsion systems.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2020.117429