posted on 2017-10-31, 00:00authored byTammy Amirian, Manouchehr Haghighi, Peyman Mostaghimi
The
controlling mechanisms behind low salinity water flooding (LSWF)
as an Enhanced Oil Recovery (EOR) method are not well understood.
So far, a limited number of researchers have tried to provide visual
and direct evidence of the underlying mechanisms behind the LS effect.
In this paper, to investigate the dynamics of displacement throughout
LSWF, clean and clay-coated two-dimensional glass micromodels were
used, with the wettability status set at both water-wet and oil-wet
conditions. Hence, pore-scale displacement mechanisms in the presence
and absence of clay, as well as in the drainage and imbibition-dominated
two-phase flow, were studied. In water-wet systems, in the absence
and presence of clays, LSW hindered “snap-off” perhaps
due to the development of a viscoelastic water–oil interface.
The wettability alteration toward more water wetness was observed
for oil-wet systems. The observations are discussed in terms of the
expansion of the Electrical Double Layer (EDL). Fines migration played
an insignificant role in our observations.