Factors Affecting the Adsorption of Trivalent Chromium Ions by Activated Carbon Prepared from Waste Rubber Tyres

Abstract

Economic gains are generally the outcome of industrialization and consequently urbanization.However, positive fiscal index generates a negative impact on natural environment sources heaving pollutant burden on soil, air and water.Industries throw tones of contaminated water into soil and water bodies without proper treatment and create a potential threat for both living and non-living species.Chromium in trivalent state (Cr 3+ ) is added in water bodies and soil through waste water from tanneries, cooling water systems, chemical and pulp and paper industries.The present research work aims at the preparation of an inexpensive activated carbon prepared from non-degradable waste scrap rubber tyres.The carbon produced from scrap rubber tyres was activated by 5% solution of BaCl2 and 0.4 N solution of HCl and verified by ethylene blue solution.The adsorption capacity of the Tyre activated carbon (TAC) was investigated for different parameters i.e., initial chromium (III) ion concentration, activated carbon dosage, contact/ stirring time and pH.The adsorption capacity of TAC depends on the initial metal ion concentration and the TAC dose.pH of the chromium solution effects the adsorption capacity of TAC due to the formation of tetra hydroxochromate(III) complexes,.The results show that TAC offers a cost effective reclamation process for the removal of Cr 3+ from effluent waters.