Litcius/Paper detail

Iodine Capture by Ag-Loaded Solid Sorbents Followed by Ag Recycling and Iodine Immobilization: An End-to-End Process

Anjali Yadav, Saehwa Chong, Brian J. Riley, John S. McCloy, Ashutosh Goel

2023Industrial & Engineering Chemistry Research36 citationsDOIOpen Access PDF

Abstract

The article demonstrates the complete process of I 2(g) capture using Ag-exchanged faujasite (AgX) and Ag-exchanged mordenite (AgZ) zeolite sorbents, the recovery of Ag for recyclability of iodine capture, and the immobilization of iodide (from the elution process) into an iodosodalite waste form, which is chemically and environmentally stable. The gaseous iodine, I 2(g), was captured in the AgX via chemisorption by Ag and converted to AgI within the aluminosilicate zeolite frameworks. The elution reaction in Na 2 S resulted in the precipitation of Ag 2 S and dissolution of I – and Na + into the aqueous solution, where powdered sorbent showed higher conversion efficiency than the granular form, which is attributed to Na 2 S-solution diffusion limitations in the granules. The Ag 2 S-containing aluminosilicate precipitates were filtered out of the solution, and the filtrate (aqueous solution) was used to synthesize iodosodalite to immobilize iodide. The iodine capture using the recovered Ag 2 S-containing sorbents shows equivalent iodine loadings to the AgX starting material of Q e = 0.355 g/g for powdered material and 0.255 g/g for granular material, demonstrating the potential recycling of Ag for iodine capture as Ag 2 S-based sorbents.

Topics & Concepts

ChemistryAqueous solutionIodineIodideZeoliteSorbentAluminosilicateFaujasiteElutionPrecipitationIodateDissolutionInorganic chemistryNuclear chemistryAdsorptionChromatographyCatalysisOrganic chemistryMeteorologyPhysicsCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsChemical Synthesis and Characterization
Iodine Capture by Ag-Loaded Solid Sorbents Followed by Ag Recycling and Iodine Immobilization: An End-to-End Process | Litcius