Abstract:
It has been found over the past couple of years rapid growth of population, industrialization
and urbanization has first and foremost contributed to the severe water pollution in both surface and
ground water. The health hazards associated with heavy metals have been on the rise, particularly the
chronic diseases. Lack of tertiary treatment of wastewater may have contributed to this emergent
problem, adsorption process is considered as the best available water treatment method and activated
carbon has proven to be the best sorbent material which can be used in removing wide variety of
pollutants. However, usage of this activated carbon becomes restrict due to its high cost and
regeneration cost. Therefore, the present study focuses on low-cost sorbent materials: viz., clay tile,
brick, sawdust and rice husks. Laboratory-scale experiments were performed with a synthetic Zinc
solution. Results revealed that clay tile material has the highest adsorption capacity (47.6 mg/g) and
removal efficiency, (98%), while brick (37.0 mg/g, 86%), sawdust (20.4 mg/g, 80%) and rice husks
(15.8 mg/g, 64%) have relatively low adsorption capacities and removal efficiencies, respectively. The
separation factor of equilibrium (RL) indicates favourable isotherms (0< RL<1) for all tested sorbent
materials. Among the studied materials clay tile, brick and rice husks are good adsorbent for Zinc (n>2)
while sawdust is a moderately difficult material for adsorption of Zinc (n <2).
