Abstract
Abstract The present study compared the adsorption capacity of Pb (II) ions from aqueous solution onto biopolymer materials (BPMs): (bean husk (BH) and fish scale (FS)). Fourier transform infrared (FTIR), thermogravimetric analysis (TGA), scanning electron microscopy (SEM) and X-ray diffraction (XRD) techniques were used to characterize the BPMs. The optimal conditions of the variables: pH, adsorbent dosage, initial metal concentration, contact time and temperature were ascertained. Experimental data were applied to the Langmuir, Freundlich and Temkin sorption isotherms using the linear equations form. The optimal removal of Pb (II) ions with BH and FS was obtained at pH 7.0 and 6.0, and 0.2 g adsorbent dosage each, respectively. The removal of Pb (II) ions fitted the pseudo-second order kinetic model well for the materials. Equilibrium Langmuir isotherm, which indicated a heterogeneous process, gave a better conformity than the other models used for BH while the Temkin isotherm gave better conformity for FS. The FS reached equilibrium faster (at about 30 min) compared to BH (at about 60 min); however, the processes are both spontaneous and endothermic. The BPMs gave about 90% removal of Pb (II) ions at the optimum dosage when used for textile wastewater. The BPMs, therefore, can be used as effective, low-cost and environmentally friendly adsorbents.
Highlights
Due to rapid industrialization and technological advancements, the natural environment suffers from the detrimental effects of pollution (Wahid et al )
The results showed the maximum lead (II) ions adsorption (196.8 mggÀ1) occurred at pH 3.5
The fish scales were washed with distilled water and air dried for about 10 days, and stones, dirt and stalks were removed by hand from the bean husk (BH)
Summary
Due to rapid industrialization and technological advancements, the natural environment suffers from the detrimental effects of pollution (Wahid et al ). Pollution of the environment through indiscriminate discharge of partially/untreated industrial effluents has been a serious concern in developing countries. An example of the inorganic component is potential toxic metals (PTMs) which found their way into the environment via the discharge of untreated wastewater/effluents. The PTMs (e.g., cadmium (Cd), lead (Pb), copper (Cu), zinc (Zn)) originate from metal plating/metallurgical processes, mining activities, smelting, battery manufacture, tanneries, petroleum refining, paint manufacture, pesticides, pigment manufacture, printing and photographic industries. These PTMs are not biodegradable and their toxicity poses a significant threat to plant, animal and human health, accumulation in the food chain and persistence in the environment
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