Page 464 - Polymer-based Nanocomposites for Energy and Environmental Applications
P. 464
420
[119]
[118]
[117]
water
microorganisms
of
combining nanofiltration and floatation
concentration
the
transmembrane
and
demulsification
the
by
for
treated
flow
purification,
efficiency
feed
in
enhanced
property
methodology
electrolytes
cross
were
membrane
purpose,
adjustment
10
of
salt
45°C,
antifouling
cleaning
be
conditions
of
m/s,
removal
water
water,
bar,
pH
can
new
of
agricultural
of
1.3
NF
and
4
amount
rejection
efficient
pH
temperature
used
and
of
water
a
of
Successful
composite
achieved
g/L,
optimum
excellent
effluents
accurate
pressure
velocity
oil
be
High
Less
11.2
Ion
For
For
For
can
l
l
l
l
l
l
l
(44%),
(100%),
TSS
grease
TDS
(76%),
(25%)
Efficiency Ref. Observations (%) l and reprocessed be can Effluents water normal to cleared l [116] from dye the remove effectively Could 99% submerged filtration via effluent textile fiber hollow charged negatively using Polymer-based Nanocomposites for Energy and Environmental Applications
(99%),
Microbes
(100%),
99.75%
(80%)
BOD
ions
oil
dye ion and BOD,
hazardous reactive of textile from of microorganisms from COD, of and oil, TDS, oil from removal
Waste Removal 5 black effluent Removal rejection wastewater Removal TSS, grease wastewater oil For
Continued nanotechnology membranes from prepared titania and membrane Nanostructured polymer-based
15.2 Nanofiltration Nanomembrane γ-alumina nanocrystallites
Table Membrane coating Nanoporous filtration membrane

