kittima ngamsai 1 amornchai arpornwichanop 1, 2 prediction of the oxidation state of vanadium in a...
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Kittima Ngamsai1
Amornchai Arpornwichanop1, 2
PREDICTION OF THE OXIDATION STATE OF VANADIUM IN A VANADIUM
REDOX FLOW BATTERY
1 Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University
2 Computational Process Engineering, Chulalongkorn University
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Outline
Materials and MethodsMaterials and Methods22
Results and DiscussionResults and Discussion33
ConclusionsConclusions44
IntroductionIntroduction11
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Introduction
Renewable energy
Conventional energy
Energy storage technology
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IntroductionWhat is Vanadium redox flow battery (VRB)?
Energy storage technologyElectrochemical cell (Reduction & Oxidation= Redox
reaction)
Energy is stored in electrolyte solution (Vanadium salt dissolved in sulfuric
acid)
Power depends on the cell
Energy depends on the electrolyte
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Introduction
Principle of VRB
VO2+ VO2+ V2+ V3+
Negative
Positive
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Introduction
Problem of electrolyte system Electrolyte Imbalance
Prediction of electrolyte imbalance
Prediction of the oxidation state of vanadium
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Introduction
What is Electrolyte Imbalance in VRB ?
V2+ V3+ V4+ V5+Charge Charge
Discharge Discharge
Balance
Imbalance
V2.5+ V4.5+
V2.5+ V 4.5+
PositiveNegative
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Introduction
Electrolyte Imbalance in VRB
Side reaction
- Air oxidation of V(II) ion
- Gassing side reaction during charging
Electrolyte transfers across membrane
- Vanadium ion transfer
- Water transfer
Cause of electrolyte imbalance
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Introduction
Electrolyte Imbalance in VRB
Effect of electrolyte imbalanceThe loss of energy capacityDecrease Efficiency Release heat
Side reaction Electrochemical reaction Electrolyte transfer Electrolyte mixing
Method to rebalance electrolyte
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Introduction VRB Research for electrolyte imbalance
The other research groups Sukkar and Skyllas-Kazacos
developed membrane to improve the transfer behavior of vanadium ion and water.*
Skyllas-Kazacos and co-worker added some chemical reactants to restore the electrolyte balance **
In this study
An electrolyte imbalance can be measured by using the modified OCV cell and Nernst’s equation
The conventional open circuit voltage (OCV) cell has been
modified.
A correlation of the OCV and the oxidation state of vanadium in an electrolyte solution is investigated.
Note:*T. Sukkar and M. Skyllas-Kazacos, J. Membr. Sci. J. 222 (2003) 235-247.
** M. Skyllas-Kazacos and L. Goh, J. Membr. Sci. J. 399-400 (2012) 43-48.
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State of charge Versus OCV
Materials and Methods
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Materials and MethodsTo investigate a correlation of OCV and the oxidation state of
vanadium in an electrolyte solution, the conventional OCV has been modified
Figure 1 (a) Conventional OCV cell and (b) modified OCV cell
(a) (b)
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Materials and Methods
The initial electrolyte solutions was prepared at an oxidation state of vanadium of +3.5 (including 50% V3+ and 50% VO2+).
Experimental
Vanadium salt
Sulfuric acid
1.0 M
2.0 M
1.5 M
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Materials and Methods
The VRB single cell with effective area of 1 dm2 and the modified OCV cell were employed.
The electrolyte solutions were fed into the cell by two peristaltic pumps.
A constant current was applied to charge and discharge for one cycle.
Data logger was used to record OCVs for every 10 seconds.
The charging time (or discharging time) can be then converted to the vanadium oxidation state.
Experimental
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Materials and Methods
OCV
Cell
P P
Positive Electrolyte
Power supply/Load
Vocv
Negative Electrolyte
Data logger
Negative electrolyte
Positive electrolyte
Reference electrolyte
V
V
VVocv_neg Vocv_pos
Figure 2. Schematic diagram of the VRB system
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Materials and Methods
Samples were titrated to determine the oxidation state of
vanadium using the potentiometric titration with potassium
permanganate as a titrant.
Experimental
To confirm the reliability of the time conversion method
Electrolyte solution samples were collected in different OCV
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Materials and Methods
Oxidation of vanadium (from +2 to +3):
(1)
Oxidation of vanadium (from +3 to +4):
(2)
Oxidation of vanadium (from +4 to +5):
(3)
e32 VV
eH2VOOHV 22
3
eH2VOOHVO 222
Nernst equation for correlation of OCV and oxidation state of vanadium in the electrolyte
In the electrolyte system of VRB
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Materials and Methods
][V
][VlnOCV
3
20
nF
RTEnn
]VO[
]V[lnOCV
2
30
nF
RTEmm
][VO
]VO[lnOCV
220
nF
RTEpp
Nernst equation for correlation of OCV and oxidation state of vanadium in the electrolyte
From (1)
From (2)
From (3)
(4)
(5)
(6)
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Materials and Methods
Correlation of an OCV and oxidation state of vanadium in electrolyte
Charging-Discharging
time Conversion method
Titration method
Nernst equation
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Results and DiscussionCharging-discharging time Conversion
method
Figure 3. Correlation of time and OCVs at the vanadium concentration of 1.5 M.
(
)
charge transfer
IdtQ
)(tfQ ; constant
I
Charge Discharge
00np EE
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Results and Discussion
oxidation state of vanadium
1.0 M Charge
OC
V (
V)
oxidation state of vanadium
1.5 M Charge
OC
V (
V)
oxidation state of vanadium
2.0 M Charge
OC
V (
V)
Figure 4. Correlation of OCV and oxidation state of vanadium at the vanadium concentration of 1.0 M, 1.5 M and 2.0 M (charging time conversion method and
titration method).
Comparison of Time Conversion method & Titration
method
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Results and Discussion
oxidation state of vanadium
1.0 M Discharge
OC
V (
V)
oxidation state of vanadium
1.5 M Discharge
OC
V (
V)
oxidation state of vanadium
2.0 M Discharge
OC
V (
V)
Figure 5. Correlation of OCV and oxidation state of vanadium at the vanadium concentration of 1.0 M, 1.5 M and 2.0 M (discharging time conversion method and
titration method).
Comparison of Time Conversion method & Titration
method
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Results and Discussion
Figure 6. Comparison of the OCV and oxidation state of vanadium obtained from charging and discharging
processes.
oxidation state of vanadium
1.0 M
OC
V (
V)
Charging-discharging time Conversion method
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Results and DiscussionNernst
Equation
VE on 7.0
VE om 0
VE op 7.0
The experimental data is used to determine the
values of and from
(4) to (6) Based on the oxidation state of
vanadium of +3.5, as the reference electrolyte
,
,
][V
][Vln7.0OCV
3
2
nF
RTn
]VO[
]V[lnOCV
2
3
nF
RTm
][VO
]VO[ln7.0OCV
22
nF
RTp
,onE
omE o
pE
V2+ to V3+
V3+ to VO2+
VO2+ to
VO2+
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Results and Discussion
Figure 7. Comparison of OCV and oxidation state of vanadium at the vanadium concentration of 1.0 M, 1.5 M and 2.0 M (Nernst equation and titration method).
Comparison of Titration method & Nernst equation
oxidation state of vanadium
OC
V (
V)
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ConclusionsA correlation of the OCV and the oxidation
state of vanadium is investigated.
Nernst equation is used to describe this
relationship
The standard potential of each half cell is
obtained from experimental data.
The prediction of OCV by Nernst equation
agrees reasonably with the experimental data
at different oxidation states of vanadium.
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Conclusions
Nernst equation with standard potential of
each half cell from these experiments can be
utilized to evaluate the oxidation state of
vanadium in each side by measurement of the
OCV at each half cell compared with the
reference electrolyte.
Electrolyte imbalance can thus be measured
by modified OCV and Nernst equation.
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Acknowledgements
Financial support from
Cellennium (Thailand) Co., ltd., is gratefully acknowledged.The authors would like to thank Dr. Suradit Holasut for his support and suggestions.
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THANK YOU