Design and Construction of Wetlands for Aqueous Transfers and Transformations of Selected Metals
Two pilot-scale wetland cells (6.1 × 30.5 m) were integratively designed and constructed to emphasize and enhance transfers and transformations of selected metals (Cu, Pb, and Zn) in an aqueous matrix. A series of preliminary experiments and analyses were conducted to select macrofeatures (hydroperi...
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Veröffentlicht in: | Ecotoxicology and environmental safety 1997-04, Vol.36 (3), p.238-248 |
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Sprache: | eng |
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Zusammenfassung: | Two pilot-scale wetland cells (6.1 × 30.5 m) were integratively designed and constructed to emphasize and enhance transfers and transformations of selected metals (Cu, Pb, and Zn) in an aqueous matrix. A series of preliminary experiments and analyses were conducted to select macrofeatures (hydroperiod, hydrosoil, and vegetation) of the constructed wetland system. These wetland cells were designed to operate in series or parallel with nominal hydraulic retention times of 24–48 hr, respectively. With water at a depth of 30 cm, both wetland cells had hydrosoil (45 cm) planted withScirpus californicus.After 250 days of wetland operation, average hydrosoil redox potentials in each wetland cell decreased from +90 mV to −165 mV, and average plant height increased from 0.3 to 2.7 m. Aqueous samples were collected over a 4.5-month period at the inflow and outflow sites of the wetland cells. Average inflow concentrations of total recoverable Cu, Pb, and Zn were 22.4, 10.5, and 565.9 μg/L, respectively. After a 46-hr HRT, average outflow concentrations of total recoverable Cu, Pb, and Zn were 15, 2.2, and 85.9 μg/L, resulting in removals of 33, 79, and 85%, respectively. Initial results suggest that these constructed wetlands can be designed to remove targeted metals in wastewater. |
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ISSN: | 0147-6513 1090-2414 |
DOI: | 10.1006/eesa.1996.1505 |