This paper is published in Volume-3, Issue-4, 2017
Area
Chemical Sciences
Author
Dr. S. D Ajagekar
Org/Univ
Thakur College of Science and Commerce,Mumbai, Maharashtra, India
Pub. Date
18 August, 2017
Paper ID
V3I4-1314
Publisher
Keywords
Batch Adsorption, Radiochemical Separation, Tracer Technique, Zirconium Phosphosilicate (ZPS), Distribution Co-Efficient.

Citationsacebook

IEEE
Dr. S. D Ajagekar. Synthesis of Zirconium Phosphosilicate and its Application as Inorganic Ion-Exchanger for Adsorption and Radiochemical Separation of Indium(III), International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Dr. S. D Ajagekar (2017). Synthesis of Zirconium Phosphosilicate and its Application as Inorganic Ion-Exchanger for Adsorption and Radiochemical Separation of Indium(III). International Journal of Advance Research, Ideas and Innovations in Technology, 3(4) www.IJARIIT.com.

MLA
Dr. S. D Ajagekar. "Synthesis of Zirconium Phosphosilicate and its Application as Inorganic Ion-Exchanger for Adsorption and Radiochemical Separation of Indium(III)." International Journal of Advance Research, Ideas and Innovations in Technology 3.4 (2017). www.IJARIIT.com.

Abstract

In the present investigation zirconium phosphosilicate has been synthesized and characterized for its composition. A rapid and selective method has been developed for the radiochemical separation of In (III) from other elements by adsorbing it on zirconium phosphosilicate as an ion-exchanger by batch process. 114mIn is used as a tracer. The optimum time of contact and pH for the adsorption of 1 mg of In (III) has been found to be 5.0 min and 4.0 respectively. The adsorption was found to be maximum (94.48 ±2.8%) with 200 mg of the exchanger. The interference of various anions in the adsorption of In(III) at optimum condition of adsorption has been studied. Adsorption of various other cation in presence of In(III) also has been studied. The distribution co-efficient values and the Decontamination factor has been evaluated.