This part of the work was done in o

This part of the work was done in order to examine and outline
the technical issues of the suspected membrane fouling (biofouling
or inorganic-fouling) and the interrelated effects of using different
antiscalants. Membrane autopsies were taken only from the first
desalination stage (Fig. 2) during the plants’ operation and the
effect of the different antiscalants on fouling behavior of the RO
modules was tested. The feed water for Granot desalination plants
(both commercial and pilot) is a blend from five local ground
brackish water wells. Pre-treatment before the RO process includes
pH correction (to 6.8) by HCl addition, rough filtration (80 mesh),
cartridge filtration (5 mm) and antiscalant injection. The commercial
desalination plant has been working continuously since 2004, while
the pilot plant has been working since 2009. Chemical cleaning is
conducted once or twice a year in both the commercial and pilot
plants. The water chemistry of the feed water is shown Table 1.
0 5 10 15 20 25 30 35 40
0.0001
0.0002
0.0003
0.0004
0.0005
0.0006
0.0007
ni m/ g m, et ar ekat pu negyx O
Time, days
Control
Polyacrylate
Polyphosphonate
0 5 10 15 20 25 30 35
0.02
0.04
0.06
0.08
0.10
TP concentration, mg/L
Time, days
TP feed
TP effluent
0 5 10 15 20 25 30 35
2.0
2.2
2.4
2.6
2.8
3.0
3.2
Total Nitrogen (TN), mg/L
Time, Days
Feed control
Effluent control
Feed Polyphosphonate
Effluent Polyphosphonate
Feed Polyacrylate
Effluent Polyacrylate
0 5 10 15 20 25 30 35
2.2
2.4
2.6
2.8
3.0
3.2
3.4
Ammonium (NH4+ ), mg/L
Time, days
Feed Control
Effluent Control
Feed Polyphosphonate
Effluent Polyphosphonate
Feed Polyacrylate
Effluent Polyacrylate
Fig. 8. The effect of polyphosphonate- and polyacrylate-based antiscalants (5 mg/L) on the bioactivity of the RO laboratory desalination unit fed with brackish water: Oxygen
uptake rate (A), total P (B), total N (C), and NH4
þ (D) were analyzed in the samples taken every three days before (“Effluent”) and immediately after changing the batch
(“Feed”) of brackish water in the RO unit. The analysis was done in the presence and absence of polyacrylate-based and polyphosphonate-based antiscalants.
182 A. Sweity et al. / Journal of Membrane Science 481 (2015) 172–187
Antiscalants used in the commercial and the pilot desalination
plants were polyphosphonate and polyacrylate based, respectively.
The nominal feed flow rate to Granot commercial and pilot plants
was 475 m3 h1 and 20 m3 h1
, respectively, and the working
pressure was set at between 12 and 15 bar. It should be mentioned
that the relevancy of the delineated biofouling mechanisms found
so far, under laboratory controlled conditions, are highlighted with
respect to the severe biofouling observed when polyacrylate-based
antiscalant is being used in the pilot plant facility. The effects of
antiscalant type as well as the location of membrane sampling on
the analysis of membrane autopsy are thoroughly discussed in the
following sections.