MECHANISMS OF PERMEATE FLUX DECAY, SOLUTE REJECTION AND CONCENTRATIONPOLARIZATION IN CROSS-FLOW FILTRATION OF A DOUBLE-CHAIN IONIC SURFACTANT DISPERSION
G. Akay et Rj. Wakeman, MECHANISMS OF PERMEATE FLUX DECAY, SOLUTE REJECTION AND CONCENTRATIONPOLARIZATION IN CROSS-FLOW FILTRATION OF A DOUBLE-CHAIN IONIC SURFACTANT DISPERSION, Journal of membrane science, 88(2-3), 1994, pp. 177-195
The mechanism of crossflow membrane filtration of an ionic double chai
n surfactant dispersion is evaluated by studying the deposition of the
surfactant on the membrane and within its pores, together with the tr
ansient behaviour of the permeate flux and permeate concentration. It
is shown that the surfactant deposition results in the formation of a
secondary membrane supported by the primary membrane. To a large exten
t, the secondary membrane controls the permeate flux and rejection of
the surfactant. The secondary membrane is formed on the surface of the
membrane and penetrates into the pores forming a region of high surfa
ctant concentration which is an order of magnitude higher than the so-
called (pseudo) gel concentration. The structure of the secondary memb
rane, evaluated from cold field emission scanning electron microscopy,
differs from that expected on the basis of phase behaviour of the sur
factant at the prevailing concentration, temperature and pressure.