Please use this identifier to cite or link to this item: https://cris.library.msu.ac.zw//handle/11408/6047
Title: Kinetic and Equilibrium Modelling of Lead, Zinc and Copper Ions Sorption from Aqueous Solution Using Charcoal Fines
Authors: Chakanaka P. Mungwari
Wilfred Chipangura
B. Ndlovu
Tapiwa N. Madziwa
Clemence K. Simende
Knowledge Nyenyayi
Charles C. Chewu
Department of Chemical Science, Midlands State University, Private Bag 9055, Senga, Gweru, Zimbabwe; Department of Chemical and Metallurgical Engineering, Botswana International University of Science and Technology, Private Bag 16, Palapye, Botswana
Department of Chemical and Processing Engineering, Manicaland State University of Applied Sciences, P. Bag 7001 Mutare, Zimbabwe
Department of Chemical Engineering, National University of Science and Technology, Box AC 939 Ascot, Bulawayo, Zimbabwe
Department of Chemical and Processing Engineering, Manicaland State University of Applied Sciences, P. Bag 7001 Mutare, Zimbabwe; Department of Chemical Engineering, National University of Science and Technology, Box AC 939 Ascot, Bulawayo, Zimbabwe
Department of Chemical and Processing Engineering, Manicaland State University of Applied Sciences, P. Bag 7001 Mutare, Zimbabwe
Department of Chemical and Processing Engineering, Manicaland State University of Applied Sciences, P. Bag 7001 Mutare, Zimbabwe
Department of Mining and Mineral Processing Engineering, Manicaland State University of Applied Sciences, P. Bag 7001 Mutare, Zimbabwe
Keywords: Charcoal Finest
Optimum Conditions
Metal Ion
Sorption
Modification
Characterization
Commercial Wastewater
Issue Date: 30-Jan-2024
Publisher: Asian Journal of Applied Science and Technology (AJAST)
Abstract: The potential of chemically modified charcoal fines UCF (unmodified charcoal fine) and MCF (modified charcoal fines) as low cost adsorbents for the removal of Pb2+, Cu2+ and Zn2+ ions from aqueous solution was studied. MCF was prepared by chemical modification of UCF with HNO3 and KOH followed by pyrolysis. The factors influenced the effectiveness of biosorption process were pH, contact time, initial metal concentration, temperature and adsorbent dosage. FT–IR spectra confirmed the existence and interaction of the adsorbents with the effluent pollutants. MCF exhibited optimum pH, temperature, contact time, initial metal ion concentration and biosorbent dosage values of 5, 35 0C, 90 minutes, 15 mg/L and 2 g, respectively. UCF exhibited optimum pH, temperature, contact time, initial metal ion concentration and biosorbent dosage values of 6, 35 0C, 100 minutes, 20 mg/L and 2.5 g, respectively. The adsorption isotherm modelling using both adsorbents showed that the equilibrium data conformed more to Langmuir than the Freundlich model. Kinetic studies showed that the adsorption processes followed a pseudo-second order kinetic model. Thermodynamic studies confirmed the spontaneity and feasibility of the adsorption process. The results showed that both adsorbent have the potential to be applied as alternative low cost biosorbent.
URI: https://cris.library.msu.ac.zw//handle/11408/6047
Appears in Collections:Research Papers

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