Agricultural Wastes as Adsorbents for the Removal of Toxic Metal Ions from Industrial Effluents

Abstract

Millions of people worldwide are suffering with the scarcity of fresh and clean drinking water, which is a fundamental need for all human beings. Freshwater resources are continuously degrading mainly due to the hasty pace of unplanned urbanization, industrialization, population growth, over exploitation and poor management. The main sources of freshwater pollution can be attributed to discharge of untreated sanitary and toxic industrial wastes, dumping of industrial effluent and runoff from agricultural fields. It is well known that 70-80% of diseases in developing countries are due to the consumption of contaminated water. Metal ions are one of the main categories of water pollutants as they are toxic for humans when penetrated the foodchain pyramid. Various toxic heavy metals (Chromium, Nickel, Copper, Zinc, Lead, Cadmium, Mercury, Arsenic, Molybdenum, Cobalt and Uranium) discharged into the environment through different industrial activities are the major causes of water pollution. These metals are highly toxic and it is compulsory to treat the industrial wastewater to permissible limits before disposal into normal water bodies. Several treatment technologies such as membrane processes, ion exchange, precipitation and coagulation have been applied in past to remove heavy metal ions from industrial wastewater. However, these methods posses various disadvantages such as lack of cost effectiveness, production of toxic chemical sludge etc. Therefore the removal of toxic heavy metals from industrial effluents in a cost effective and environment friendly manner is of greater significance. Biosorption of metal ions by agricultural residues seems to be an ecofriendly technology to clean up contaminated water. In this context, present work envisaged to prepare, characterize and evaluate the metal uptake capacity of the agricultural residues from synthetic and industrial wastewater. Mainly four different biosorbents viz., Arachis hypogea shell powder, Trifolium alexandrinum biomass powder, Eucalyptus sp.