@article { author = {Zamani souderjani, Ehsan and Keshtkar, Ali Reza and Mousavian, Mohammad Ali}, title = {Application of response surface methodology for thorium(IV) removal using Amberlite IR-120 and IRA-400: Ion exchange equilibrium and kinetics}, journal = {Journal of Particle Science and Technology}, volume = {3}, number = {2}, pages = {101-112}, year = {2017}, publisher = {Iranian Research Organization for Science and Technology}, issn = {2423-4087}, eissn = {2423-4079}, doi = {10.22104/jpst.2017.2267.1088}, abstract = {In this work, thorium (IV) removal from aqueous solutions was investigated in batch systems of cationic and anionic resins of Amberlite IR-120 and IRA-400. In this way, the effects of pH, initial Th(IV) concentration and the amount of adsorbent were investigated. A Central Composite Design (CCD) under Response Surface Methodology (RSM) was employed to determine the optimized condition. The results showed that the maximum removal efficiency of Th(IV) onto IR-120 and IRA-400 either discretely or in combination, albeit with equal mass fraction, was determined as follows: 98.09% , 65.70% and 72.19% at pH=3.23, 6 and 4.07, initial Th(IV) concentration of 78.2, 30 and 55.4 mg.L-1 and 2.08, 2.5 and 2.2 g.L-1 of resin, respectively. The kinetic and equilibrium data were accurately described by the pseudo-second order and Langmuir models. The results showed that IR-120 is a suitable adsorbent for thorium removal from aqueous solutions.}, keywords = {Th(IV) Removal,Response surface methodology,Central Composite Design,Ion Exchange Resin}, url = {https://jpst.irost.ir/article_600.html}, eprint = {https://jpst.irost.ir/article_600_629e718c47da9451362919cc83fd2a89.pdf} }