Redox Flow Batteries & Regenerative Fuel Cells
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Transcript of Redox Flow Batteries & Regenerative Fuel Cells
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NPRE 498 Energy Storage
Redox Flow Batteries & Regenerative Fuel Cells
Enabling renewable energy
• Vanadium redox flow• Polysulfide/Bromine flow• Uranium (!!!) based• Zinc/Bromide (half redox flow)• All liquid regenerative fuel cells• Ongoing Projects here in UIUC
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NPRE 498 Energy Storage
• Dated back to the 70’s with the 1973 oil crisis
• Examples: – Fe(III)/Fe(II) in liquid (solvated ionic) form – Cr(III)/Cr(II) in liquid (solvated ionic) form
Redox flow battery (history)
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NPRE 498 Energy Storage
A Fe/CrRedox flow
battery
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NPRE 498 Energy Storage
The Vanadium Redox Pair Anode (-)V2+ V3+ + e-Cathode (+) V4+ V5+ + e-
Advantages: 1.no non-desired ionic mixture2.No need for salt bridge
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NPRE 498 Energy Storage
Vanadium Redox Battery Schematic
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NPRE 498 Energy Storage
The VRB: the bipolar construction
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NPRE 498 Energy Storage
VRB: Real system
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NPRE 498 Energy Storage
VRB: Performance
Cell voltage change vs time in a charge/discharge cycle, current density was 40mA/cm2
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NPRE 498 Energy Storage
VRB: Performance
Cell voltage change in different membranes vs time in a charge/discharge cycle, current density was 37.5mA/cm2
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NPRE 498 Energy Storage
VRB: IssuesDisadvantage: 1.Cost of vanadium (cost > $100/kWhr) 2.Energy density (~30 Whr/kg)
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NPRE 498 Energy Storage
Regenerative Fuel Cells• Referring to a system or a single cell?
A Regenerative Fuel Cell System
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NPRE 498 Energy Storage
Regenerative Fuel CellsA regenerative Fuel Cell System in NASA Glenn Center
Fuel cell Electrolyzer
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NPRE 498 Energy Storage
A Single Cell
Regenerative Fuel Cells
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NPRE 498 Energy Storage
• But there is a big catch:• Hydrophobicity vs Hydrophilicity • Conflicting requirement in two modes
for a gas phase product/reactant combination
Regenerative Fuel Cells
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NPRE 498 Energy Storage
Regenerative Fuel Cells
• All liquid RFC• A bit like Redox flow battery • Potentially higher energy density • Kinetics is generally slower• Example, NaBH4/H2O2
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery• How it works?
3NaBr+(n−1) Na2Sn NaBr3+nNa2Sn−1, n=2−4
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery
The structure of a PSB battery: (a) anolyte tank; (b) catholyte tank; (c1, c2) magnetic pump; (d1, d2, d3, d4) tie-in; (e1, e2) end plate; (f1, f2, f3, f4, f5, f6) gasket; (g1, g2) electrode plate; (h1, h2) flow frame; (i) cation exchange membrane; (j) negative electrode; (k) positive electrode.
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery
Polarization curves (at 50% SOC) with different material: (♦, ) GF; (■, □) CF; ( upright triangles ) ACE; (●, ○) Co-ACE; and ( , inverted triangles ) Co-GF.
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery
Discharge curves of ( u tri ) CF and ( inv tri ) ACE. (○) Cell open circuit voltage curve. (Line 1) positive half-cell potential and (line 2) negative half-cell potential.
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery
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NPRE 498 Energy Storage
Polysulfide/Bromine Flow Battery• Advantages
– Low cost – Fast kinetics
• Disadvantages – Cross-over – Poor stability