Uranium Removal from Wastewater Using Mg(OH)2-Impregnated Activated Carbon

Saputra, Andri and Swantomo, Deni and Ariyanto, Teguh and Sulistyo, Hary (2019) Uranium Removal from Wastewater Using Mg(OH)2-Impregnated Activated Carbon. Water, Air, and Soil Pollution, 230 (9). ISSN 00496979

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Abstract

Uranium wastewater treatment has been performed by adsorption method using Mg(OH)<sub>2</sub>-impregnated activated carbon. Research purposes are to determine (i) uptake capacity of the adsorption isotherm of uranium in Mg(OH)<sub>2</sub>-impregnated activated carbon, (ii) mathematical correlation of uranium (VI) adsorption rate, and (iii) effect of the impregnation ratio of adsorbent to uranium removal efficiency. Adsorbent was synthesized through several stages, i.e., pyrolysis of coconut shell (400 °C), chemical activation using NaOH, and impregnation process using varied solutions of MgCl<sub>2</sub> (600 °C). The materials were characterized comprehensively using FTIR, BET, XRF, and XRD. The parameters studied in this research were adsorption temperature (T), average particle diameter of adsorbent (d), mass ratio of adsorbent to wastewater solution (r), and impregnation ratio of Mg(OH)<sub>2</sub>/activated carbon. The results shown that equilibrium data are well fitted with the Langmuir isotherm model with the maximum adsorption capacity about 85 mg/g at 303 K and dimensionless constant separation factor (RL) value about 0.7. The adsorption rate was increased by increasing the adsorption temperature, mass ratio of adsorbent to wastewater solution, and the decrease of particle diameter of adsorbent with mathematical equation of the uranium (VI) adsorption rate as:lnCC0=85032.11exp(41981.03RT)d0.2176r0.1925t2 In addition, the results also shown that increasing the impregnation ratio from 0.3 to 1.0 can increase the uranium removal efficiency up to 67.3%.

Item Type: Article
Additional Information: Library Dosen
Uncontrolled Keywords: Activated carbon; Activated carbon treatment; Adsorption; Adsorption isotherms; Chemical activation; Chemicals removal (water treatment); Chlorine compounds; Efficiency; Impregnation; Magnesium compounds; Particle size; Radioactive wastes; Sodium hydroxide; Wastewater treatment; activated carbon; magnesium hydroxide; uranium; Adsorption capacities; Adsorption kinetics; Adsorption temperature; Impregnation process; Langmuir isotherm models; Mathematical correlation; Mathematical equations; Wastewater solution; activated carbon; adsorption; correlation; plant residue; pyrolysis; reaction kinetics; shell; uranium; wastewater treatment; adsorption; Article; chemical analysis; correlational study; Fourier transform infrared spectroscopy; isotherm; particle size; pyrolysis; separation technique; synthesis; temperature measurement; waste component removal; waste water; X ray diffraction; X ray fluorescence; Uranium compounds
Subjects: T Technology > TP Chemical technology > Chemical engineering
Divisions: Faculty of Engineering > Chemistry Engineering Department
Depositing User: Sri JUNANDI
Date Deposited: 04 May 2026 02:33
Last Modified: 04 May 2026 02:33
URI: https://ir.lib.ugm.ac.id/id/eprint/26489

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