the power of blue energy - kivi › uploads › media › 571376f0e0c88 › ... · the power of...
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September 2015
The power of Blue Energy
Kitty Nijmeijer
Membrane Science & Technology
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2
Landustrie Magneto Special Anodes A.Hak MAST Carbon
• Jordi Moreno, Timon Rijnaarts, Enver Guler, David Vermaas, Piotr Długołęcki, Michel Saakes, Matthias Wessling, Yali Zhang, Rianne Elizen
• Blue Energy Team Wetsus:
Alliander Eneco Energy Frisia Zout Fuji Film
Acknowledgements
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Salinity Gradient Energy
transport
precipitation
river discharge
evaporation
Salinity Gradient Energy
Sea River
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0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
3.0 MJ
6.0
9.0
12.0
15.0
concentrated NaCl (mol/l)
diluted
NaCl (mol/l)
1m3 Sea +
1m3 River
1m3 Dead Sea
+ 1m3 Med. Sea
1m3 Brine +
1m3 River
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
3.0 MJ
6.0
9.0
12.0
15.0
concentrated NaCl (mol/l)
diluted
NaCl (mol/l)
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
3.0 MJ
6.0
9.0
12.0
15.0
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
0.0 1.0 2.0 3.0 4.0 5.0
0.10
0.20
0.30
0.40
0.50
3.0 MJ
6.0
9.0
12.0
15.0
concentrated NaCl (mol/l)
diluted
NaCl (mol/l)
1m3 Sea +
1m3 River
1m3 Sea +
1m3 River
1m3 Dead Sea
+ 1m3 Med. Sea
1m3 Dead Sea
+ 1m3 Med. Sea
1m3 Brine +
1m3 River
1m3 Brine +
1m3 River
Post et al., Journal of Membrane Science 288 (2007) 218.
Theoretical potential: Gibbs energy of mixing
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• Global potential: 2.4 TW (2.4×1012 W)
• Sustainable energy
• Fuel readily available
• No emission of CO2, SO2, Nox
• 3300 m3/s fresh water into sea
Rine: 2200 m3/s
IJssel: 600 m3/s
Maas: 200 m3/s
• Rhine: energy supply 80% Dutch households
Energy Potential
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Energy Potential
The Netherlands:
• Electricity demand 2002: 12500 MW
• Theoretical potential: 7000 MW (50%!)
• Practice: 3000 MW?
• Objective:
- ~3 kW/m3 reactor volume
- ~3 W/m2 membrane area
• Challenge: increase in power output
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IJsselmeer
fresh water
Waddenzee
salt water
Energy Potential
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IJsselmeer
fresh water
Waddenzee
salt water
200m
Hydro electric power station
Potential worldwide: 1.4-2.6 TW
Practical potential NL: 1.5 GW
(10-15% of Dutch consumption)
Energy Potential
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IJsselmeer
fresh water
Waddenzee
salt water
200m
Hydro electric power station
50 elephants on 1 m2
Potential worldwide: 1.4-2.6 TW
Practical potential NL: 1.5 GW
(15% of Dutch consumption)
Energy Potential
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Cathode Anode
e- e-
AEM CEM
Cl-
Na+
Sea water
River water
CEM
Cl-
Na+
AEM AEM CEM
Cl-
Na+ Na+
CEM
e-
Principle of RED
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Application of reverse electrodialysis
• Type of salt solutions - Mostly NaCl
- Industrial salt streams1
- Thermolytic solutions (e.g. ammonium bicarbonate, higher Δc)2
• Combination with other technologies - RED with seawater desalination and solar ponds3
- RED with reverse osmosis (RO)4
- Closed-loop ammonium carbonate RED cells for H2 recovery5
- RED combined with microbial fuel cell technology6
1. R. Audinos, J. Power Sources, 1983, 10, 203 2. G. M. Geise et al., ACS Macro Lett., 2013, 2, 814; M. C. Hatzell, B. E. Logan, J. Membr. Sci., 2013, 446, 449; X. Luo
et al., Electrochem. Commun., 2012, 19, 25 3. E. Brauns, Desalin. Water Treat., 2010, 13, 53 4. W. Li et al, Appl. Energ., 2013, 104, 592 5. M. C. Hatzell, et al., Phys. Chem. Chem. Phys., 2014, 16, 1632 6. Y. Kim, B.E. Logan, Environ. Sci. Technol. 2011, 45, 5834
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Ion exchange membranes for RED
Anion exchange membrane (AEM)
Cation exchange membrane (CEM)
SO3
N(CH3)3
Source: ionics
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Cation Exchange Membranes
Membrane Thickness (μm)
IEC (meq/g dry)
Permselectivity (%)
Resistance (Ω×cm2)
Fumasep®
FKE 34 1.36 98.6 2.5 Electrodialysis, high selectivity
FKD 113 1.14 89.5 2.1 Diffusion dialysis for NaOH
Neosepta®
CM-1 133 2.30 97.2 1.7 Low electrical resistance
CMX 164 1.62 99.0 2.9 High mechanical strength
Ralex®
CMH-PES 764 2.34 94.7 11.3 Heterogeneous, Electrodialysis, Electrodeionization
Selemion®
CMV 101 2.01 98.8 2.3 Electrodialysis
Dlugolecki et al., Journal of Membrane Science 319 (2008) 214.
Membrane properties
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Membranes in RED
R. Audinos, J. Power Sources, 1983, 10, 203.
1, 3, 5: Homogeneous; 2, 4, 6: Heterogeneous; Maximum power output: 0.4 W/m2
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Membranes in RED
• Response product = Power density x Thermodynamic efficiency
• Highest for Selemion AMV-CMV
• No clear relationship between response product and individual
membrane properties (selectivity)
• Membrane resistance, osmosis and co-ion transport affect
performance
J. Veerman et al., J. Membr. Sci., 2009, 327, 136.
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CH2CHO
CH2Cl
2 +
CH2
CH2CHO
CH2
CH2CHO
CH2Cl
CH2CHO CH2CHO
CH2Cl
n
y n-y
n-yy
y
+
+
Cl-
Cl-
Membrane design
Polymer PECH
Crosslinker DABCO
Charged polymer
Source: Ionics
P. Altmeier, Patent 5,746,917 (1998); Bolto and Jackson, Reactive polymers 2 (1984) 209-222.
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0
2
4
6
8
10
0.0 0.3 0.5 0.8 1.0 1.3
Blend ratio (mPECH/mPAN)
Are
a r
esis
tan
ce (
Ω c
m2)
50
60
70
80
90
100
Perm
sele
cti
vit
y (
%)
area resistance
permselectivity
0.0
0.5
1.0
1.5
2.0
2.5
3.0
0.0 0.3 0.5 0.8 1.0 1.3
Blend ratio (mPECH/mPAN)
Ion
exch
an
ge c
ap
acit
y
(mm
ol/g
dry
)
0
40
80
120
160
200
Sw
ellin
g d
eg
ree (
%)
Swelling degree
IEC
Membrane design
Enver Guler et al., ChemSusChem 5 (11) (2012) 2262-2270.
Membrane resistance is essential
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Membrane design
Enver Guler et al., ChemSusChem 5 (11) (2012) 2262-2270; Journal of Membrane Science 446 (2013) 266–276.
70 140 210
0.6
0.9
1.2
9
8
7
6543
2
Gro
ss p
ow
er
de
nsity (
W/m
2)
Flow rate (ml/min)
1 SPEEK 65/PECH B2
2 CMX/PECH B2
3 SPEEK40/PECH B2
4 FKS/FAS
5 SPEEK 65/AMX
6 CMX/AMX
7 SPEEK 40/AMX
8 Qianqui
9 CMH-PES/AMH-PES
1Tailor-made membranes
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Cathode Anode
e- e-
AEM CEM
Cl-
Na+
Seawater
River water
CEM
Cl-
Na+
AEM AEM CEM
Cl-
Na+ Na+
CEM
Principle of RED
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Cathode Anode
e- e- Cl-
Na+
Seawater
River water
Cl-
Na+
Cl-
Na+ Na+
Principle of RED
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- Thinner spacers: higher gross power densities but
higher pressure drop
- Membranes traditionally separated by non
conductive spacers
Spacers in RED
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Ion conductive spacers
P. Dlugolecki et al., J. Membrane Sci. 347 (2010) 101; Environ. Sci. & Tecnol. 43 (2009) 6888
- Integration of spacer and membrane functionality
- Microstructured membranes
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Ion conductive spacers
P. Dlugolecki et al., J. Membrane Sci. 347 (2010) 101; Environ. Sci. & Tecnol. 43 (2009) 6888
- Integration of spacer and membrane functionality
- Microstructured membranes
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Microstructured membranes – hot pressing
Hot-pressing of commercial membranes
David Vermaas et al., Journal of Membrane Science 385-386 (2011) 234-242.
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Microstructured membranes – hot pressing
Profiled CEM (Ralex - CMH) and AEM (Ralex - AMH)
David Vermaas et al., Journal of Membrane Science 385-386 (2011) 234-242.
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Microstructured membranes – hot pressing
David Vermaas et al., Journal of Membrane Science 385-386 (2011) 234-242.
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Microstructured
membranes
Spacers
Microstructured membranes – hot pressing
David Vermaas et al., Journal of Membrane Science 385-386 (2011) 234-242.
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Microstructured
membranes
Spacers
Microstructured membranes – hot pressing
David Vermaas et al., Journal of Membrane Science 385-386 (2011) 234-242.
- Microstructured spacers:
small improvement in net
power
- But: due to geometry of the
structures, mixing is poor
and effect of boundary
layers is dominant
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Microstructured membranes – Membrane casting
100
0.8 mm
0.25 mm
a) b) c)
mold
0.4 mm
0.2 mm mold
0.4 mm
0.2 mm Casting
Evaporation
&
Thermal curing
Release
Solution
Mold
Polymer
Mold
Membrane
Mold
Guler et al., Journal of Membrane Science 458 (2014) 136
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Microstructured membranes – Membrane casting
c) d)
a) b)
Structured membrane Flat membrane
100 µm
200 µm 200 µm
100 μm
Guler et al., Journal of Membrane Science 458 (2014) 136
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Microstructured membranes – Membrane casting
0 2 4 6 8 100.0
0.2
0.4
0.6
0.8
1.0
1.2
P
co
nce
ntr
ate
d (
ba
r)
Reynolds (-)
Ridge
Wave
Pillar
Flat
a)
0 10 20 30 40 50
Flow rate (mL/min)
0 2 4 6 8 100.0
0.2
0.4
0.6
0.8
1.0
1.2
P
dilu
ted
(ba
r)
Reynolds (-)
Flat
Ridge
Wave
Pillar
b)
0 10 20 30 40 50
Flow rate (mL/min)
Seawater - spacers River water – microstructured membranes
Guler et al., Journal of Membrane Science 458 (2014) 136
a) ridge
0.0 s 0.8 s 1.6 s 2.4 s
0.0 s 0.8 s 1.6 s 2.4 s
0.0 s 0.8 s 1.6 s 2.4 s
b) wave
c) pillar
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Microstructured membranes – Membrane casting
0 2 4 6 8 100.0
0.5
1.0
1.5
Flat
Ridge
Wave
Pillar
Gro
ss p
ow
er
den
sity (
W/m
2)
Reynolds (-)
0 10 20 30 40 50
Flow rate (mL/min)
Gross power
0 1 2 3 40.0
0.2
0.4
0.6
Ne
t p
ow
er
de
nsity (
W/m
2)
Reynolds (-)
Wave
Ridge
0 5 10 15 20
Flow rate (mL/min)
Pillar
Flat
Net power
Guler et al., Journal of Membrane Science 458 (2014) 136
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Towards the application: Real feed waters
J.W. Post et al., Journal of Membrane Science 330 (2009) 65; D Vermaas et al., Water Research 47 (2013) 1289
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Real seawater and river water: MgSO4
J.W. Post et al., Journal of Membrane Science 330 (2009) 65; D Vermaas et al., Water Research 47 (2013) 1289
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Real seawater and river water: MgSO4
J.W. Post et al., Journal of Membrane Science 330 (2009) 65; D Vermaas et al., Water Research 47 (2013) 1289
• Typically 10% multivalent
• Strong decrease in power
• Transport of multivalent ions
against their gradient to
compensate for charge transport
of monovalent ions
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Real seawater and river water: MgSO4
D. Vermaas et al., Water Research 47 (2013) 1289
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J.W. Post et al., Journal of Membrane Science 330 (2009) 65
SO42- Mg2+
Na+ Cl-
Monovalent ion selective membranes?
Ion concentrations in river water compartment Filled symbols: standard-grade; open symbols: monovalent-ion selective membranes
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Real river water
Real seawater
AEM CEM
AEM CEM
Diatom
remnants
Spherical
deposition
Diatom
remnants
• Grey-brown material in spacer
open area
• Fouling especially on AEM (HA)
• Less fouling on CEM
• Membrane charge is important
• Spacers strongly enhance fouling
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Real seawater and river water: Fouling
• Values ‘normalized’ (net power)
• Organic fouling covers the
charge of the membrane
Selectivity and resistance
• Profiled membranes show
reduced fouling
• Fouling control?
David Vermaas et al., Water Research 47 (2013) 1289
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David Vermaas et al., Environ. Sci. Technol. 2014, 48, 3065
• Feed water switching: every 30 minutes
• Air sparging: every 30 minutes, 30 sec.
Real seawater and river water: Fouling reduction
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David Vermaas et al., Environ. Sci. Technol. 2014, 48, 3065
• Feed water switching: every 30 minutes
• Air sparging: every 30 minutes, 30 sec.
Real seawater and river water: Fouling reduction
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Real seawater and river water: Fouling reduction
David Vermaas et al., Water Research 47 (2013) 1289
• Stop, cleaning manually with a brush and stored in demineralized water or
5 M NaCl (brine) for 3 days, followed by power generation.
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Future perspective
• Fouling significantly reduces power output
• Operational strategies for fouling reduction
• Chemistry allows tailoring the membrane properties:
- Improved power output
- Monovalent ion selective membranes to mitigate against the
negative effect of multivalent species
- Anti-fouling membranes
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Towards the real application
Demonstration at the Afsluitdijk (NL)
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Demonstration installation at the Afsluitdijk
• 2005: Foundation REDstack BV
• 2006 - present: Fundamental Research Wetsus
• 2007 - 2010 First tests on real feed water
• About the Afsluitdijk project:
- December 2011: Public Funding
- May 2012: Private Funding
- May 2012: Start Design process Afsluitdijk-plant
- June 2013: Permits obtained + start building + testing
- November 2014: Official opening by the King of The Netherlands
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Lake IJssel
Salt water in
Fresh in
Waddensea
Brackish
out
NRC 28032015/Bron: REDstack
REDstack
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Demonstration installation at the Afsluitdijk
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Demonstration installation at the Afsluitdijk
After 10 years of research…….
Prefiltration
Buffer tanks
8 stack positions
• 7.33 M€
• 8 stacks, 50 m2/stack
• 25 W/stack
• 5 W for pumping/stack
• Fuji membranes
• 220 m3/h seawater
• 220 m3/h fresh water
• Goal: after 4 years: 50 kW installed
Pilot plant on the Afsluitdijk (NL).