posted on 2018-08-16, 00:00authored byMoon Son, Wulin Yang, Szilard S. Bucs, Maria F. Nava-Ocampo, Johannes S. Vrouwenvelder, Bruce E. Logan
Reverse osmosis (RO)
membranes inevitably foul because of the accumulation
of material on the membrane surface. Instead of trying to reduce membrane
fouling by chemically modifying the membrane, we took a different
approach based on adding a sacrificial coating of two polyelectrolytes
to the membrane. After membrane fouling, this coating was removed
by flushing with a highly saline brine solution, and a new coating
was regenerated in situ to provide a fresh protective
layer (PL) on the membrane surface. The utility of this approach was
demonstrated by conducting four consecutive dead-end filtration experiments
using a model foulant (alginate, 200 ppm) in a synthetic brackish
water (2000 ppm of NaCl). Brine removal and regeneration of the PL
coating restored the water flux to an average of 97 ± 3% of its
initial flux, compared to only 83 ± 3% for the pristine membrane.
The average water flux for the PL-coated membranes was 15.5 ±
0.6 L m–2 h–1 until the flux was
decreased by 10% versus its initial flux, compared to 13.4 ±
0.5 L m–2 h–1 for the nontreated
control. The use of a sacrificial PL coating could therefore provide
a more sustainable approach for addressing RO membrane fouling.