Removal of Th(IV) ions from aqueous solution using newly developed bi-component bio-based adsorbents

  • سال انتشار: 1401
  • محل انتشار: فصلنامه فیزیک و مهندسی پرتو، دوره: 3، شماره: 1
  • کد COI اختصاصی: JR_RPE-3-1_003
  • زبان مقاله: انگلیسی
  • تعداد مشاهده: 87
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نویسندگان

Saeed Alamdar Milani

Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, P.O. Box: ۱۴۸۹۳-۸۳۶, Tehran; Iran

Ali Yadollahi

Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, P.O. Box: ۱۴۸۹۳-۸۳۶, Tehran; Iran

Mohammad Faryadi

Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, P.O. Box: ۱۴۸۹۳-۸۳۶, Tehran; Iran

چکیده

An immobilized hybrid biosorbent (IHB) was prepared by hybridizing two biosorbents and evaluated for its ability to remove thorium ions from aqueous solution. The combined effect of the initial pH of solution (۲ to ۶), initial Th(IV) ion solution concentration (۵۰-۳۰۰ mg.L-۱), IHB dose (۰.۵-۵ g.L-۱), and sorption duration (۱۰ to ۱۸۰ min) was investigated using central composite design (CCD). Experimental data were analyzed using Design Expert ۸.۰.۶ software and fitted to a second order polynomial model with logarithm transform function. The adequacy of the model was verified using three indices, model analysis, coefficient of determination (R۲) and the lack-of-fit test. The initial pH of solution was determined as the most effectual factor on Th(IV) ions biosorption removal by using the analysis of variance (ANOVA). According to the obtained results, pH value of ۴.۵, initial metal ion concentration of ۲۱۰ mg.L-۱, IHB dose of ۵ g.L-۱, and sorption duration of ۹۵ minutes were proven to be the optimum conditions, for maximum biosorption removal of Th(IV) ions from aqueous solutions. Thermodynamic parameters have been evaluated, and it has been determined that the sorption process is feasible in going forward with more products than reactants, exothermic in nature and the reaction is entropy-driven. The equilibrium data were analyzed by the Langmuir, Freundlich, and Temkin sorption isotherms. Maximum monolayer sorption capacity of the IHB was found to be ۱۴۲.۸۶ mg.g-۱. Pseudo-second-order kinetics model provided the better fit for all the biosorption processes which let suppose a physical rate-limiting step for the process.

کلیدواژه ها

Th (IV), Sorption removal, Imobilized hybrid biosorbent (IHB), RSM, Sorption isotherm

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