Journal of Colloid and Interface Science, Vol.285, No.2, 821-833, 2005
Oilfield solids and water-in-oil emulsion stability
Model water-in-hydrocarbon emulsions consisting of toluene, heptane, water, asphaltenes, and native solids were used to investigate the role of native solids in the stability of oilfield emulsions. The solids were recovered from an oil-sands bitumen, a wellhead emulsion. and a refinery slop oil. The solids were clay platelets and fell into two size categories: (1) fine solids 50 to 500 run in diameter and (2) coarse solids 1 to 10 mu m in diameter. Emulsions stabilized by fine solids and asphaltenes were most stable at a 2:1 fractional area ratio of asphaltenes to solids. It appears that when the asphaltene surface coverage is high, insufficient solids remain to make an effective barrier. When the solids coverage is high. insufficient asphaltenes remain oil the interface to immobilize the solids. Treatments that weaken the interface, such as toluene dilution. are recommended for emulsions stabilized by fine solids. Emulsions stabilized by coarse solids were Unstable at low solids concentrations but became very stable at solids concentrations greater than 10 kg/m(3). At low concentrations, these solids may act as bridges between water droplets and promote coalescence. At high concentrations. layers of coarse solids may become trapped between water droplets and prevent coalescence. Treatments that flocculate the solids. such Lis heptane dilution, are recommended for emulsions stabilized by high concentrations of coarse solids. It is possible that emulsions containing both types of solids may require more than one treatment, or even process step. for effective water resolution. (c) 2004 Elsevier Inc. All rights reserved.
Keywords:solids;clays;particle size distribution;water-in-oil emulsions;refinery emulsions;wellhead emulsions;stabilization mechanisms;interfacial composition;destabilization of emulsions