utilizing benefits by combining micro-/ and ... · utilizing benefits by combining micro-/ and...
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![Page 1: Utilizing benefits by combining micro-/ and ... · Utilizing benefits by combining micro-/ and ultrafiltration with other processes Grit Hoffmann, André Tatzel, Holger Lutze, Ralph](https://reader034.vdocument.in/reader034/viewer/2022042111/5e8bf6590f7f5e0d5c47e0c7/html5/thumbnails/1.jpg)
Utilizing benefits by combining micro-/ and
ultrafiltration with other processes
Grit Hoffmann, André Tatzel, Holger Lutze,
Ralph Hobby, Marcel Koti
Prof. Dr.-Ing. Stefan Panglisch
Mechanical Process Engineering/ Water Technology
University of Duisburg-Essen
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Combining micro-/ and ultrafiltration (MF and UF) with other processes
2
Treatment Target
Turbidity/ Particles
Sedimentation and/or
Conventional Filtration
or Flotation
CO2-Dosage Calcite Filtration
CO2-Dosage Calcite
Filtration
Powdered
Activated
Carbon
Activated Carbon
Filtration
Nanofiltration/
Reverse
Osmosis
Stabilization
Ozonation Activated Carbon
Filtration
Dehardening/
decarbonization/
precipitation
Flotation
Ozonation
Residual Ozone
Destruction
Ceramic
Membrane
Ozonation
Nanofiltration/
Reverse
Osmosis
Stabilization
Dis
trib
uti
on
Net
Dis
infe
cti
on
(o
pti
on
al)
Multistage treatment with membranes
Po
lym
eri
c/ C
era
mic
MF
/UF
Me
mb
ran
e
Biofiltration
Activated Carbon Filtration
if n
ee
de
d p
refi
ltra
tio
n (
e.g
. c
art
rid
ge
filte
rs)
(ca
. 3
00
µm
)
Turbidity/ Particles
+
Taste/ Odor/ Colour
Turbidity/ Particles
+
DOC
Turbidity/ Particles
+
Manganese
Turbidity/ Particles
+
Re-Hardening
Turbidity/ Particles
+
Nonpolar Organic
Micropollutants
Turbidity/ Particles
+
Desalination
Turbidity/ Particles
+
Organic Micropollutants
Oxidation (e.g. KMnO4, O2)
Manganese Removal
Coagulation
and/or
MIEX
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Combining micro-/ and ultrafiltration (MF and UF) with other processes
3
Treatment Target
Turbidity/ Particles
Sedimentation and/or
Conventional Filtration
or Flotation
CO2-Dosage Calcite Filtration
CO2-Dosage Calcite
Filtration
Powdered
Activated
Carbon
Activated Carbon
Filtration
Nanofiltration/
Reverse
Osmosis
Stabilization
Ozonation Activated Carbon
Filtration
Dehardening/
decarbonization/
precipitation
Flotation
Ozonation
Residual Ozone
Destruction
Ceramic
Membrane
Ozonation
Nanofiltration/
Reverse
Osmosis
Stabilization
Dis
trib
uti
on
Net
Dis
infe
cti
on
(o
pti
on
al)
Multistage treatment with membranes
Po
lym
eri
c/ C
era
mic
MF
/UF
Me
mb
ran
e
Biofiltration
Activated Carbon Filtration
if n
ee
de
d p
refi
ltra
tio
n (
e.g
. c
art
rid
ge
filte
rs)
(ca
. 3
00
µm
)
Turbidity/ Particles
+
Taste/ Odor/ Colour
Turbidity/ Particles
+
DOC
Turbidity/ Particles
+
Manganese
Turbidity/ Particles
+
Re-Hardening
Turbidity/ Particles
+
Nonpolar Organic
Micropollutants
Turbidity/ Particles
+
Desalination
Turbidity/ Particles
+
Organic Micropollutants
Oxidation (e.g. KMnO4, O2)
Manganese Removal
Coagulation
and/or
MIEX
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Summary
Combined membrane processes can produce synergies
Combined coagulation/membrane filtration
increase the removal for dissolved organics
decreases the required dosage of coagulant (if needed for particle
removal)
decreases fouling
Combined ozonation/membrane filtration
increases the removal of oxidizable compounds
decreases the required dosage of ozone (if needed for disinfection)
decreases fouling
Combined PAC/membrane filtration
increases the removal of adsorbable compounds
decreases the required dosage of PAC (as single dosage is possible)
decreases fouling (first single results give reason for believing in this)
BUT: operational parameters have to be optimized and
properly adjusted
4
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Foulants in MF/UF
Inorganic and organic colloids
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Different fractions of DOC (dissolvedorganic carbon)
LC-OCD chromatography by DOC Labor Huber
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Foulants in MF/UF
Inorganic and organic colloids
High molecular weight organics e.g.
Biopolymers,
polysaccharides,
proteins,
polyhydroxyaromatics,
amino sugars
TEP = transparent exopolymeric particles
negatively charged biopolymers usually colonised
by bacteria
Low molecular weight organics either charged
or neutral
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Foulants
Foulants in MF/UF
sticks on membrane surfaces or on/in membrane
pores
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9
Foulants
Foulants in MF/UF
sticks on membrane surfaces or on/in membrane
pores
crosslinks particles and particles and membrane
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10
Foulants
Foulants in MF/UF
sticks on membrane surfaces or on/in membrane
pores
crosslinks particles and particles and membrane
cannot be removed by backwashing (irreversible
fouling)
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11
Foulants
Foulants in MF/UF
sticks on membrane surfaces or on/in membrane
pores
crosslinks particles and particles and membrane
cannot be removed by backwashing (irreversible
fouling)
cannot be removed by chemical cleaning (chemically
irreversible fouling)
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How to reduce irreversible fouling
Pre-treatment Coagulation
to remove high molecular weight organics
to remove colloids
to enhance backwash efficiency
Anionic resins (MIEX , SIX )
to remove charged organics (either of low or high molecularweight)
Powdered activated carbon (PAC)
effect unclear (may be deep bed filtration effect)
Combined coagulation and PAC dosage
PAC improves the cake behavior of the flocs morepermeable layers, further enhanced backwash efficiency
Ozonation
residual ozone on the membrane surface increasesmembrane permeability
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Principle of the Coagulation / UF combination
UF, flow direction
Floc
organic subst., high-molecularorganic subst., middle- sizedorganic subst., low-molecular
Inorganic subst.:ions, polyvalentIons, monovalent
Dissolved Substances
Solid Substancesparticles, colloids, e. g.bacteriaparasitesalgaeclay particlesviruses
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Effect of coagulation prior to UF
Results of pilot experiments in Addur (Persian
gulf)
Without FeCl3
With FeCl3
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Effect of coagulation on membrane performance
210
230
250
270
290
310
2.8.02 2.8.02 2.8.02 2.8.02 2.8.02 2.8.02
Pe
rme
ab
ilit
y [
L/m
2/h
/ba
r]
0
Switching off of dosage pump
Switching on
of dosage pump
CEB CEB CEB CEB
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Combined Coagulation-UF
Filtrate
Tank
Feed-
Pump
Membrane Modul
Source
Water
Options of dosage of coagulant
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Filtrate
Tank
Feed-
Pump
Membrane Modul
Source
Water
G >1.000 s-1 G ~ 100 s-1
Coagulant
tRetention = 5 - 10 s
Combined Coagulation-UF
Options of dosage of coagulant
tRetention = 5 - 10 min
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Combined Coagulation-UF
Filtrate
Tank
Feed-
Pump
Membrane Modul
Source
Water
Coagulant
G ~300 s-1
tRetention > 45 s
Options of dosage of coagulant
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Combined Coagulation-UF
Influence of retention time
Kinetics-Experiment
FeCl3 -dosage: 1 mg/l Fe
0,0
0,2
0,4
0,6
0,8
1,0
0 20 40 60 80 100 120
Time [s]
Con
ce
ntr
atio
n F
e so
lved
[mg
/l]
n.d. n.d. n.d. n.d.
specifiic dosage
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Combined Coagulation-UF
By coagulation … … smaller colloids are embedded in larger floc-aggregates and
are thus not able to contribute to a pore blocking
… adsorbable molecules are hold off from the membrane
It is to avoid … … forming layers made of smallest, compact flocs
… residual concentration of the coagulant on the membrane
Important factors are ... pH-value (in dependency on kind of coagulant)
pH 6,2 -6,5 with Al-Sulfate, up to pH 7 with Poly-Al-Chloride
G-value in between 300 und 500 s-1 with inline-coagulation
retention time > 45 s
periodic CEB (e.g. alternate alkaline-acidic)
Further on … the mass load has to be adapted to the capillary geometry
(flux and filtration time, concentration of coagulant)
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Advanced drinking water treatment technology in
Roetgen/Aachen/Germany (6,000 m³/h)
Pre-filtration
Limestone-Filtration
Desinfection
Storage Tank
Coagulation (in-line)
UF
1. Stage
ReservoirPAC
(optional)NaOH / CO2
Al2(SO4)3
CO2
NaOH (optional)
sludge containing
water
Discharge
Neutralisation
w chemicals
w/o chemicals
Re-feed
UF
2. Stage
w/o chemicals
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Combined ozonation/coagulation MF
Pilot investigations on combined
ozonation, coagulation, and ceramic membrane
filtration (microfiltration)
Source water: spring water in Lucerne/
Switzerland
serious quality changes after heavy rains
high content of organic and inorganic colloids with
high affinity to plug membrane pores
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Experimental setup – process engineering
23
Ozone
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What we wanted to know
Long term performance of process chain
depending on
dosage of ozone,
dosage of coagulant,
combined dosage of both
Design data for the technical process
24
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2nd generation
L=1.000mm 15m2
3rd generation
L=1.500mm 25m2
Ceramic membranes from Metawater
Small membrane element (1st generation; 0.4 m²)
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Design of the monolith
Feed Channel
2.5 mm
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Ceramic membranes from Metawater
Ceramic Microfiltration (MF):
α-Al2O3
nominal pore size 0,1µm
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Speciality of Ceramic MF: Backflush process
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Moduls and Systems
Source: Metawater
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Moduls and Systems
Source: Metawater
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Pilot results
Treatment of spring water highly affected by surface water
with 3 (4) independant lines operating with ceramic MF
Turbidity 0.5 – 50 NTU
DOC 0.6 – 2,4 mg/l
UV254 1.6 – 8.2 m-1
Temp. 6 – 10°C
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Pilot results line 1
Coagulation (Polyaluchlorid) Ceramic MF, 0.8 m²
Filtration time 30 min, 3-6 mg/l Al, acidic CEB each 3rd BW
(CEB = Chemical enhanced backwash)
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Pilot results line 2
Ozone Ceramic MF, 0.8 m²
Filtration time 210 min, no CEB, 0.4 mg/l residual ozone at outlet reactor
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Pilot results line 3
Ozone Coagulation (Polyaluchlorid) Ceramic MF, 0.8 m²
Filtration time 210 min, 0.5 mg/l Al, no CEB, 0.4 mg/l residual ozone at outlet reactor
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Pilot results line 4 : Technical scale module
Ozone Coagulation (Polyaluchlorid) Ceramic MF, 25 m2
Filtration time 30 min, 0.5-2 mg/l Al, acidic CEB each 16th BW, 0.25 mg/l residual ozone at outlet reactor
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Pilot results line 1
completely
fouled
membrane
Ozone Coagulation (Polyaluchlorid) Ceramic MF, 0.8 m²
Filtration time 60 min, 0.5-5 mg/l Al, acidic CEB each 5th BW,
0.25 mg/l residual ozone at outlet reactor
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Pilot results line 1: cleaning effect
completely
fouled
membrane
Start Ozone
Ozone Coagulation (Polyaluchlorid) Ceramic MF, 0.8 m²
Filtration time 60 min, 0.5-5 mg/l Al, acidic CEB each 5th BW,
0.25 mg/l residual ozone at outlet reactor
Stop Ozone
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Effect of residual ozone
Enhancement of BW efficiency by oxidation organic
foulants
Effect depends on concentration of residual ozone on
the membranes surface
Assumptions:
Ozone is concentrated on the membrane surface and in the
membrane pores (e.g. by adsorption) and meets foulants
concentrated there as well
highly enhanced mass transfer, short distances between
foulants and ozone, effective and specific oxidation of
foulants
Catalytic effect with metalloxide surface
formation of OH-radicals NO!
???
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Combined powdered activated carbon/MF
Investigation of the hybrid process using
Powdered Activated Carbon Adsorption and
Microfiltration
high removal of organic substances
optimal usage of activated carbon adsorption
capacity
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Principle of the PAC / UF combination
UF, flow direction
organic subst., high-molecularorganic subst., middle- sizedorganic subst., low-molecular
Inorganic subst.:ions, polyvalentIons, monovalent
Dissolved Substances
Solid Substancesparticles, colloids, e. g.PAC particlesbacteriaparasitesalgaeclay particlesviruses
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Material and methods
Powdered activated carbon
Jacobi Aquasorb 5000, PAC-MG
(average diameter= 5 µm)
Raw water
Organic
Substance
PAC
30 sec contact time
Raw water
- Synthetic model water, SMW
Organic test substance
- Diclofenac- DFC (5 mg/L)
(measured by UV spectroscopy)
Lab membrane module
PALL Microza MF (PVDF) (~ 0.1 μm)
Membrane surface: 0.26 m2
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Material and methods
Raw water
Organic
Substance
PAC
30 sec contact time
Operation
Out/In filtration
Flux: 140 L/m2h
60 min filtration time
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Material and methods
Permeate
Backwash
water
Air
Backwash
SASRF-
Simultaneous
Air Scrubb
with
Reverse Filtration
Flux: 208 L/m2h
Air assistence: 2 bar
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Experimental Overview
Part 1: Influence of activated carbon dosage
mode
Step by step from continuous to single pulse
dosage mode
Part 2: Influence of activated carbon slurry
preparation
Formation of carbon agglomerates and their
influence on the process when single pulse
dosage mode is used
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Results PART 1Influence of activated carbon dosage time
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
0.0
0.2
0.4
0.6
0.8
1.0
0 5 10 15 20 25 30 35 40 45 50 55 60
Filtration time [min]
C/C
0
Dosage time (Removal)
60 min ( 28.5 %)
40 min ( 36.2 %)
20 min ( 39.3 %)
10 min ( 43.8 %)
1 min ( 48.0 %)
(= cont. dosage)
(= single pulse dosage)
Filtration time [min]
Carbon dosage time
(Average Removal)
Feed: 5 mg/L DFC in SMW
PAC conc.: 5 mg/L
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Discussion PART 1Influence of activated carbon dosage time
Single pulse → higher average removal → higher loading of the carbon → “Filter effect”
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Discussion PART 1Influence of activated carbon dosage time
0
0 C0
Continuous dosage of carbon
Long contact time
Lo
ad
ing
, q
Residual concentration, cCS C0
qmax
Continuous dosage
Short
qmax
Continuous
dosage-
Long
CL
Continuous dosage of carbon
Short contact time
Single pulse dosage of carbon
qmaxSingle pulse dosage
Single pulse → higher average removal → higher loading of the carbon → “Filter effect”
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- PAC slurry → high concentrations (several g/L)
- carbon particles → agglomeration tendency → up to more than 100 µm in
size
1 → slowed adsorption kinetics
Results PART 2Influence of activated carbon slurry preparation
0.2 g/L 0.3 g/L 0.5 g/L0.1 g/L0.05 g/L0.01 g/L 1 g/L 2 g/L 3 g/L 4 g/L
~ 300
µm
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2 → changed carbon distribution on the membrane
Results PART 2Influence of activated carbon slurry preparation
B
3.6 g/L
C
2 g/L
D
1 g/L
E
0.2 g/L
A
No PAC
Carbon layer on the membrane surface for different PAC slurry concentrations
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Results PART 2Influence of activated carbon slurry preparation
0,0
0,2
0,4
0,6
0,8
1,0
0 10 20 30 40 50 60
C/C
0
Filtrationszeit [min]
0,005 53,9
3,6 32,5
1,8 40,8
0,9 46,6
0,2 53,8
0,05 54,9
0,005 53,9
PAK EntfernungSusp.[g/L] [%]
0,0
0,2
0,4
0,6
0,8
1,0
0 10 20 30 40 50 60
C/C
0
Filtrationszeit [min]
0,005 53,9
3,6 32,5
1,8 40,8
0,9 46,6
0,2 53,8
0,05 54,9
0,005 53,9
PAK EntfernungSusp.[g/L] [%]
0,0
0,2
0,4
0,6
0,8
1,0
0 10 20 30 40 50 60
C/C
0
Filtrationszeit [min]
0,005 53,9
3,6 32,5
1,8 40,8
0,9 46,6
0,2 53,8
0,05 54,9
0,005 53,9
PAK EntfernungSusp.[g/L] [%]
0,0
0,2
0,4
0,6
0,8
1,0
0 10 20 30 40 50 60
C/C
0
Filtrationszeit [min]
0,005 53,9
3,6 32,5
1,8 40,8
0,9 46,6
0,2 53,8
0,05 54,9
0,005 53,9
PAK EntfernungSusp.[g/L] [%]
Filtration time [min]
PAC Removal
slurry [g/L] [%]
3.6
1.8
0.9
0.2
0.05
0.005
33
41
47
54
55
54
Feed: 5 mg/L DFC in SMW
PAC conc.: 5 mg/L
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Discussion PART 2Influence of activated carbon slurry preparation
Agglomerates negatively influence the process
→ slower adsorption kinetics ???
→ incomplete covering of
membrane surface ???
→ further investigations – fully covered
membrane – still negative effect
→ main reason - the reduced adsorption kinetics
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Summary
Combined membrane processes can produce synergies
Combined coagulation/membrane filtration
increase the removal for dissolved organics
decreases the required dosage of coagulant (if needed for particle
removal)
decreases fouling
Combined ozonation/membrane filtration
increases the removal of oxidizable compounds
decreases the required dosage of ozone (if needed for disinfection)
decreases fouling
Combined PAC/membrane filtration
increases the removal of adsorbable compounds
decreases the required dosage of PAC (as single dosage is possible)
decreases fouling (first single results give reason for believing in this)
BUT: operational parameters have to be optimized and
properly adjusted
52