Several treatment processes have be

Several treatment processes have been developed over the years to remove the lead dissolved in wastewaters. How-ever, most of these techniques have some disadvantages, such as complicated treatment process, high cost and energy consumption. Adsorption of heavy metals from aqueous solutions is a relatively new process that has proven very promising in the removal of contaminants from wastewaters. The most popular adsorbent for the adsorption process is activated carbon, but it is very expensive and there is a need for its regeneration after each adsorption experiment. Adsorbent materials derived from low-cost agricultural wastes can be used for the effective removal and recovery of lead ions from wastewater. Cost is an important parameter for comparing the sorbent materi-als. The expense of individual sorbents varies depending on the degree of processing required and local availability. The effectiveness of the adsorption depends not only on the properties of the adsorbent, but also on various parameters (pH, temperature, initial concentration, contact time, par-ticle size of adsorbent, etc.) used for the adsorption process. These parameters should also be taken into account while examining the potential of low-cost adsorbents.

This review shows that agricultural waste adsorbents have equal or greater adsorption capacities than activated carbon. Some of the adsorbents with uptake sorption capacities ([90 mg/g) are: citrus peels, cocoa shells, leaf powder A. indica (neem), leaves peepul, leaves, Casuarina glauca tree, maize bran, mango peel waste, orange peel, palm shell, onion skins, ponkan peel, rice husk ash, rose petals, seaweed Ascophyllum nodosum, Senecio anteu-phorbium, sugarcane bagasse, valonia tannin resin, V. album leaves and wheat bran.

It has also been recommended that additional studies are required to predict the performance of the adsorption pro-cesses for the removal of Pb2? ions from wastewater.