Ind. Eng. Chem. Res., 41 (14), 3389 -3404, 2002. 10.1021/ie010927n S0888-5885(01)00927-7
Web Release Date: June 13, 2002

Copyright © 2002 American Chemical Society

The Effects of Inorganic Solid Particles on Water and Crude Oil Emulsion Stability

Andrew P. Sullivan and Peter K. Kilpatrick*

Department of Chemical Engineering, North Carolina State University, Raleigh, North Carolina 27695-7905

Received for review November 13, 2001

Revised manuscript received April 15, 2002

Accepted April 22, 2002

Abstract:

Small inorganic particles strongly enhance water-crude oil emulsion stability when interactions with asphaltenes promote particle adsorption at the oil-water interface. A variety of particle types have been studied to investigate the controlling factors for particle-stabilization effectiveness. Emulsion stabilities were determined by the extent of water resolved after centrifugation and the electric field required for emulsion breakdown. All particles used were hydrophilic and stabilized oil-in-water emulsions if small enough to be interfacially active. When dried and exposed to asphaltene-containing oil phases, the particles stabilized water-in-oil emulsions. Decreased extents of preadsorbed water, decreased particle sizes, and increased particle concentrations enhanced water-in-oil emulsion stability. Investigations with model emulsions showed that an intermediate state of asphaltene aggregation, near the point of incipient precipitation, is required for particle modification and emulsion stabilization. Increased asphaltene-particle interactions increased emulsion stabilization effectiveness.