Abstract
The use of five strong base anion exchange resins to treat three potable groundwater sources to meet the new California maximum contaminant level (MCL) for hexavalent chromium (10 μg/L) was investigated. Depending on the resin used, bed volumes treated before breakthrough of total chromium (to 8 μg/L) ranged from approximately 13,800 to 26,400. At the point of resin exhaustion, uptake of total chromium (meq/L) accounted for less than 1% of the exchange capacity reported by resin vendors, whereas the uptake of sulfate accounted for 54–76%. Reusing the brine nine times produced a tenfold reduction in the volume of spent brine requiring ultimate disposal without significantly impairing resin performance. Chromium breakthrough profiles were relatively insensitive to a change in empty bed contact time (0.75 and 2.25 min) and hydraulic loading rates (8–55 mL/min‐cm2, 1.96–13.5 gpm/sf).
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