The search for the appropriate demulsifier for a water-in-crude oil emulsio
n is generally carried out through the well-known "bottle test" technique.
A comprehensive approach is proposed here, which is based on earlier work o
n the rate of separation of surfactant- water- hydrocarbon mixtures, where
it was found that "optimal" type III systems, in Winsor's nomenclature, exh
ibits the fastest separation rate. It is shown that the rules developed for
microemulsion optimization apply to the selection of the demulsifier. They
allow one to take into account; the variation of salinity, temperature, cr
ude-oil type, and so forth and provide an explanation for the demulsifier c
oncentration effect. Interfacial tension measurements have been carried out
. They show that the kinetics of demulsifier adsorption at the water-crude
oil interface (or alternatively the Gibbs elasticity modulus) is correlated
to the phase separation rate, as already described in the literature: the
higher the kinetics, the faster the separation rate.