The Open Waste Management Journal

2009, 2 : 6-16
Published online 2009 February 17. DOI: 10.2174/1876400201002010006
Publisher ID: TOWMJ-2-6

Reductive Remediation of Pollutants Using Metals

Sumathi Suresh
Centre for Environmental Science and Engineering, Indian Institute of Technology-Bombay, Powai, Mumbai 400 076, India.

ABSTRACT

Metal systems have been extensively used for the abiotic remediation of recalcitrant pollutants. Zero-valent metals such as iron (Fe0), zinc (Zn0), magnesium (Mg0) have been used for the reductive dechlorination of organic compounds Nanoscale zero-valent iron particles have been reported to be very effective for the transformation and detoxification of a wide variety of contaminants, such as arsenic, hexavalent chromium, chlorinated organic solvents, nitroaromatic compounds and azo dyes. Zero-valent metals often result in the production of partially dechlorinated products which are sometimes more toxic than the parent compounds. Also the rate of reactions slow down due to passivation of metals and remediation process may take several days. In this context bimetallic systems offer advantages. Bimetallic systems combine the thermodynamic driving force associated with the corrosion of the reactive metals (like Mg0 and Fe0) with the catalytic hydrogenation characteristics of the second metal such as zero valent palladium or silver. Dechlorination of pollutants by bimetallic systems is presumed to occur via nucleophilic substitution reactions. The overall rate of the reaction is strongly influenced by the type of substituent groups on the aromatic ring. Commercial application of hydrogenating catalyst such as palladium is limited due to the fact that it is expensive and its recovery after the reduction reaction is very poor. Moreover the presence of trace concentrations of palladium in treated water may exert toxic effects on biological systems. Such problems can be overcome by immobilizing palladium onto suitable support matrices which would enhance its reuse and recovery. Important factors which should be taken into consideration while selecting a support is its stability to by- products, the ease and simplicity with which the catalyst can be immobilized.