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Manganese and trace metal removal in successive anaerobic and aerobic wetlands

Conference ·
OSTI ID:588835
; ;  [1];  [2]
  1. TVA Environmental Research Center, Muscle Shoals, AL (United States)
  2. TVA Technology Advancements, Chattanooga, TN (United States)
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A microcosm study was conducted to evaluate the use of anaerobic wetlands preceding aerobic wetlands for removal of Mn, Cu, Ni, Zn, and Pb in wastewater. Initial concentrations for Mn, Cu, Ni, Pb, and Zn were 20, 2.0 1.5 2.1, and 2.0 mg/L, respectively. Each experimental unit consisted of three cattle-feeding troughs (cells) set in series, The first cell was anaerobic and the last two were aerobic. Water was delivered to the wetland cells at 20 mL/min for a period of 380 days. The anaerobic wetlands consisted of three treatments replicated two times. The aerobic wetlands consisted of two treatments replicated three times, one anaerobic treatment contained organic matter and limestone (SP). Another anaerobic treatment contained organic matter, limestone, and canarygrass (SP&CG). The third anaerobic treatment consisted of canarygrass planted in river gravel (RG). Water flowed into the top and was discharged from the bottom of each anaerobic wetlands The aerobic treatments consisted of reciprocating or not reciprocating water between two cells containing river gravel. The anaerobic troughs with organic matter were effective in reducing sulfate to sulfide and producing alkalinity in the range from 80 to 300 mg/L. Manganese removal in the anaerobic systems decreased with time with the effluent anaerobic waters near equilibrium with respect to MnS and MnCO{sub 3} toward the end of the experiment, Removal of Cu, Ni, Zn, and Pb was very effective in the anaerobic cells with organic matter due to precipitation of metal sulfides. Since Mn removal was ineffective in the long-term in the anaerobic system, aerobic wetlands would be necessary for further water treatment. Manganese removal in the reciprocating aerobic cells was quicker than in the nonreciprocating aerobic cells with removal due to precipitation of Mn oxides. Coupled anaerobic-aerobic wetlands appear to hold promise for removing trace metals via metal sulfide precipitation and Mn via Mn oxide precipitation.
OSTI ID:
588835
Report Number(s):
CONF-9605286--; CNN: Contract RP3561-01
Country of Publication:
United States
Language:
English

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Related Subjects

01 COAL, LIGNITE, AND PEAT
54 ENVIRONMENTAL SCIENCES
55 BIOLOGY AND MEDICINE
BASIC STUDIES
ACID MINE DRAINAGE
COAL MINES
COPPER
ENVIRONMENTAL EFFECTS
LEAD
LIMESTONE
MANGANESE
METALS
NICKEL
ORGANIC MATTER
SULFIDES
WASTE WATER
WATER TREATMENT
WETLANDS
ZINC