Investigation of uranium sorption from acidic sulfate solution using organosilicate compound and Amberlite IRA 402

Kouraim, Mohamed N.; Sheta, Mohamed E.; Elaal, Mostafa Mahmoud Abd

doi:10.5155/eurjchem.5.3.446-450.1026

Cited by 5 publications

(4 citation statements)

References 25 publications

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“…Uranium could be quantitatively isolated from its descendants using Dowex 1 Â 8 (20e50 mesh) or Amerlite IRA (100 mesh) resins to recover uranium ions (Guzm an, 2016). Ion exchange resins also are successfully employed for uranium separation from its solutions, among these resins, Amberlite IRA 402 strong base anion exchanger is applied for uranium recovery from sulfate leach liquor (Kouraim, Sheta, & Abd Elaal, 2014). Adsorption of uranium from sulfate solutions is also studied using Amberlite IRA-402 resin (Solgy et al, 2015), uranium sorption is applied onto amberlite CG-400 anion exchange resin in the presence of phosphate anions (Semnani, Asadi, Samadfam, & Sepehrian, 2012).…”

Section: Introductionmentioning

confidence: 99%

Uranium(VI) recovery from acidic leach liquor by Ambersep 920U SO4 resin: Kinetic, equilibrium and thermodynamic studies

Cheira

Atia

Kouraim

2017

Journal of Radiation Research and Applied Sciences

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The kinetic, equilibrium and thermodynamic characteristics of U(VI) recovery by the strong base anion exchange resin Ambersep 920U SO 4 from Gabal Gattar sulfate leach liquor have been determined. Batch sorption experiments are performed to evaluate the optimum conditions at pH2, 200 mg resin dose for 120 min contact time at room temperature. The maximum sorption capacity reaches to 58 mg/g at 298 K. The kinetics data are well described by the pseudo-second-order kinetic model at different uranium concentrations. The experimental results obtained at various temperatures showed that the adsorption pattern on the studied resin has followed Langmuir isotherm model. The evaluation of thermodynamic parameters (free energy change DG, enthalpy change DS, entropy change DH, activation energy E a and sticking probability S*) indicate that the adsorption process is spontaneous in nature, endothermic, randomness and chemisorptions. Uranium(VI) can be completely desorbed from the loaded resin using 0.5 M HNO 3 solution. Finally, the optimized factors have been carried out for uranium(VI) recovery from G. Gattar leach liquor.

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Section: Introductionmentioning

confidence: 99%

Uranium(VI) recovery from acidic leach liquor by Ambersep 920U SO4 resin: Kinetic, equilibrium and thermodynamic studies

Cheira

Atia

Kouraim

2017

Journal of Radiation Research and Applied Sciences

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“…Berdasarkan penelitian terdahulu, semakin besar massa resin semakin besar kemampuan resin dalam menyerap suatu ion [11,12]. Demikian pula dengan waktu kontak, semakin lama waktu kontak semakin banyak ion yang teradsorpsi hingga titik jenuh [13].…”

Section: Pendahuluanunclassified

“…Penelitian adsorpsi U 4+ , Th 4+ dan logamlogam berat dengan resin penukar anion Amberlite IRA402 menunjukkan bahwa resin tersebut dapat menyerap hingga 90% uranium dalam waktu singkat [11][12][13][14]. Penelitian lainnya menggunakan metode resin penukar ion Tulsion A23 mampu menurunkan konsentrasi unsur-unsur radioaktif, fosfat, nitrat, dan Cr 6+ pada limbah metalurgi [15][16][17].…”

Section: Pendahuluanunclassified

Reduksi Torium Pada Limbah Cair Pengolahan Monasit Menggunakan Resin Penukar Anion

Hasna

Amalia

Marisi³

2020

EKSPLORIUM

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ABSTRAK Dampak dari pemisahan logam tanah jarang pada monasit adalah limbah cair yang mengandung unsur radioaktif torium yang berbahaya bagi lingkungan dan makhluk hidup. Metode standar dalam pemisahan torium dari limbah cair adalah dengan menggunakan resin penukar anion. Penelitian ini bertujuan untuk mengetahui jenis resin penukar anion, massa resin, dan waktu kontak yang optimum untuk menurunkan kadar torium dalam limbah cair monasit. Hasil menunjukkan bahwa laju penukaran optimum terjadi pada resin Amberlite IRA402 dengan waktu kontak 60 menit dan massa 1 gram yaitu sebesar 57,7%. Sementara itu, pada resin Tulsion A23, laju penukaran optimum sebesar 50,7% terjadi pada waktu kontak 50 menit dan massa resin 1 gram. Uji statistik menunjukkan tidak ada perbedaan nyata pada variasi jenis resin dan waktu kontak yang menunjukkan nilai signifikan >0,05. Pada waktu yang sama, terdapat perbedaan nyata pada variasi massa resin dengan hasil nilai signifikan <0,05. Uji Duncan menyatakan massa resin kecil (0,25 dan 0,5 gram) cocok untuk Tulsion A23 dan massa resin besar (0,75 dan1 gram) cocok untuk resin Amberlite IRA402.ABSTRACT The effect of separating rare earths from monazite is wastewater containing the radioactive element thorium which is harmful to the environment and living things. A standard method of separating thorium from wastewater is with anion-exchange resin. This study determines the optimum type of anion-exchange resin, resin weight, and contact time to reduce thorium levels in monazite wastewater. The results showed that the optimum exchange rate that occurred in Amberlite IRA402 resin is 57.7%, at 60 minutes and 1 gram. Meanwhile, the optimum exchange rate for Tulsion A23 resin is 50.7%, at 50 minutes and 1 gram. The statistical test showed that there was no significant difference in the resin type and contact time variation, which showed a considerable value >0.05. At the same time there was a substantial difference in resin mass variation with a significant value <0.05. The Duncan test stated that lighter resin masses (0.25 and 0.5 gram) are suitable for Tulsion A23 and heavier resin masses (0.75 and 1 gram) are ideal for Amberlite IRA402.

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“…The linearized form of the Freundlich isotherm equation is expressed in e F e 1 ln q ln K ln C n ( 2 ) where Ce (mg/ L) is the concentration of sulfate at equilibrium, KL (L/mg), and qmax (mg/g) are the Langmuir constants related to the energy of adsorption and maximum capacity, respectively; KF and 1/n are the Freundlich constants related to the adsorption capacity and intensity, respectively; and qe (mg/g) is the mass of sulfate adsorbed per mass of adsorbent [19]. The results of fitting Freundlich and Langmuir equations to isotherm curves which are showed in Figure 2 and 3 are summarized in Table 1.…”

Section: Adsorption Isotherm Analysismentioning

confidence: 99%

Study on removal behavior and separation efficiency of naturally occurring bentonite for sulfate from water by continuous column and batch methods

Baker

Ghanem

2015

Eur. J. Chem.

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Investigation of uranium sorption from acidic sulfate solution using organosilicate compound and Amberlite IRA 402

Cited by 5 publications

References 25 publications

Uranium(VI) recovery from acidic leach liquor by Ambersep 920U SO4 resin: Kinetic, equilibrium and thermodynamic studies

Uranium(VI) recovery from acidic leach liquor by Ambersep 920U SO4 resin: Kinetic, equilibrium and thermodynamic studies

Reduksi Torium Pada Limbah Cair Pengolahan Monasit Menggunakan Resin Penukar Anion

Study on removal behavior and separation efficiency of naturally occurring bentonite for sulfate from water by continuous column and batch methods

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