Electrosorption of Chromium Ions on Carbon Aerogel Electrodes as a Means of Remediating Ground Water

Electrosorption of Chromium Ions on Carbon Aerogel Electrodes as a Means of Remediating Ground Water

An electrically-regenerated separation process has been developed for removing unwanted ions from aqueous waste streams as a minimally-polluting, energy-efficient, and potentially cost-effective alternative to ion exchange, reverse osmosis, electrodialysis, and evaporation. Ground water containing v...

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Bibliographische Detailangaben
Hauptverfasser: Farmer, Joseph C, Bahowick, Sally M, Harrar, Jackson E, Fix, David V, Martinelli, Roger E
Format: Report
Sprache:eng
Schlagworte:
AEROGEL ELECTRODES
ANIONS
CARBON AEROGEL
CATHODES
CATIONS
CHEMISORPTION
CHROMIUM
ELECTRIC FIELDS
ELECTRICAL RESISTANCE
ELECTROCHEMISTRY
ELECTRODIALYSIS
ELECTROLYTES
ELECTROSORPTION
ENVIRONMENTAL MANAGEMENT
GROUND WATER
Physical Chemistry
REVERSE OSMOSIS
SERDP COLLECTION
SERDP(STRATEGIC ENVIRONMENTAL RESEARCH AND DEVELOPMENT PROGRAM)
WASTE TREATMENT
WATER POLLUTION
Water Pollution and Control
WATER TREATMENT
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Beschreibung
Zusammenfassung:An electrically-regenerated separation process has been developed for removing unwanted ions from aqueous waste streams as a minimally-polluting, energy-efficient, and potentially cost-effective alternative to ion exchange, reverse osmosis, electrodialysis, and evaporation. Ground water containing various anions and cations are passed through a stack of carbon aerogel electrodes, each having a very high specific surface area and exceptionally low electrical resistivity. After polarization of the stack, impurity ions are removed from the electrolyte by the imposed electric field and adsorbed on the electrode surfaces. Field tests have shown that hexavalent chromium in the form of HCrO4(-)/CrO42(-)/Cr2O72(-) can be selectively removed from contaminated ground water with a 530 ppm total dissolved solids (TDS) background. The concentration of Cr(VI) can be lowered from 35 to 2 ppb. The mechanism for Cr(VI) separation involves chemisorption on the carbon aerogel anode, a process that can be reversed by cathodic polarization. Cr(VI) removal is not based upon simple double-layer charging.