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Cycling performance of the iron-chromium redox energy storage system (1985)

Hagedorn, N. H. ; Johnson, J. A. ; Gahn, R. F.

In: Other Sources

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Publication Date: 2011-08-19

Description: Extended charge-discharge cycling of this electrochemical storage system at 65 C was performed on 14.5 sq cm single cells and a four cell, 867 sq cm bipolar stack. Both the anolyte and catholyte reactant fluids contained 1 molar concentrations of iron and chromium chlorides in hydrochloric acid and were separated by a low-selectivity, cation-exchange membrane. The effect of cycling on the chromium electrode and the cation-exchange membrane was determined. Bismuth and bismuth-lead catalyzed chromium electrodes and a radiation-grafted polyethylene membrane were evaluated by cycling between 5 and 85 percent state-of-charge at 80 mA/sq cm and by periodic charge-discharge polarization measurements to 140 mA/sq cm. Gradual performance losses were observed during cycling but were recoverable by completely discharging the system. Good scale-up to the 867 sq cm stack was achieved. The only difference appeared to be an unexplained resistive-type loss which resulted in a 75 percent W-hr efficiency (at 80 mA/sq cm versus 81 percent for the 14.5 sq cm cell). A new rebalance cell was developed to maintain reactant ionic balance. The cell successfully reduced ferric ions in the iron reactant stream to ferrous ions while chloride ions were oxidized to chlorine gas.

Keywords: ENERGY PRODUCTION AND CONVERSION

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2

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Negative electrode catalyst for the iron chromium redox energy storage system (1985)

Hagedorn, N. H. ; Gahn, R. F.

In: CASI

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Publication Date: 2019-06-28

Description: A redox cell which operates at elevated temperatures and which utilizes the same two metal couples in each of the two reactant fluids is disclosed. Each fluid includes a bismuth salt and may also include a lead salt. A low cost, cation permselective membrane separates the reactant fluids.

Keywords: ENERGY PRODUCTION AND CONVERSION

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3

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Method and apparatus for rebalancing a REDOX flow cell system (1985)

Gahn, R. F.

In: CASI

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Publication Date: 2019-06-28

Description: A rebalance cell is provided for a REDOX electrochemical system of the type with anode and cathode fluids which are aqueous HC1 solutions with two metal species in each. The rebalance cell has a cathode compartment and a chlorine compartment separated by an ion permeable membrane. By applying an electrical potential to the rebalance cell while circulating cathode fluid through the cathode compartment and while circulating an identical fluid through the chlorine compartment, any significant imbalance of the REDOX system is prevented.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NAS 1.71:LEW-14127-1

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4

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Negative-Electrode Catalysts for Fe/Cr Redox Cells (1987)

Hagedorn, N. ; Gahn, R. F.

In: Other Sources

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Publication Date: 2019-07-12

Description: Electrodes perform more consistently and less expensive. Surfaces catalyzed by bismuth and bismuth/lead developed for application on chromium electrode in iron/chromium redox electrochemical energy storage system. NASA Fe/Cr storage system incorporates two soluble electrodes consisting of acidified solutions of iron chloride (FeC13 and FeC12) and chromium chloride (CrC13 and CrC12) oxidized and reduced in power-conversion unit to store and produce electricity. Electrolytes circulated with pumps and stored in external tanks.

Keywords: MATERIALS

Type: LEW-14028 , NASA Tech Briefs (ISSN 0145-319X); P. 40

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5

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Cycling Performance of the Iron-Chromium Redox Energy Storage System (1985)

Gahn, R. F. ; Johnson, J. A. ; Hagedorn, N. H.

In: CASI

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Publication Date: 2019-07-13

Description: Extended charge-discharge cycling of this electrochemical storage system at 65 C was performed on 14.5 sq cm single cells and a four cell, 867 sq cm bipolar stack. Both the anolyte and catholyte reactant fluids contained 1 molar concentrations of iron and chromium chlorides in hydrochloric acid and were separated by a low-selectivity, cation-exchange membrane. The effect of cycling on the chromium electrode and the cation-exchange membrane was determined. Bismuth and bismuth-lead catalyzed chromium electrodes and a radiation-grafted polyethylene membrane were evaluated by cycling between 5 and 85 percent state-of-charge at 80 mA/sq cm and by periodic charge-discharge polarization measurements to 140 mA/sq cm. Gradual performance losses were observed during cycling but were recoverable by completely discharging the system. Good scale-up to the 867 sq cm stack was achieved. The only difference appeared to be an unexplained resistive-type loss which resulted in a 75 percent W-hr efficiency (at 80 mA/sq cm versus 81 percent for the 14.5 sq cm cell). A new rebalance cell was developed to maintain reactant ionic balance. The cell successfully reduced ferric ions in the iron reactant stream to ferrous ions while chloride ions were oxidized to chlorine gas.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA-TM-87034 , E-2590 , DOE/NASA/12726-25 , NAS 1.15:87034 , Intersoc. Energy Conversion Eng. Conf.; Aug 18, 1985 - Aug 23, 1985; Miami Beach, FL; United States

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