Investigations into a thiol-impregnated CaCO3-based adsorbent for mercury removal: a full factorial design approach

Airborne mercury, mostly from coal-based power plants, deposits in rivers, lakes, and oceans, and moves up the food chain resulting in adverse effects on humans and ecology. This study focused on an innovative idea of impregnating calcium carbonate with a thiol compound, 2-mercaptobenzimidazole (2-M...

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Main Authors: Balasundaram, Karthik, Sharma, Mukesh
Format: Article
Language:English
Online Access:Get full text
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Summary:Airborne mercury, mostly from coal-based power plants, deposits in rivers, lakes, and oceans, and moves up the food chain resulting in adverse effects on humans and ecology. This study focused on an innovative idea of impregnating calcium carbonate with a thiol compound, 2-mercaptobenzimidazole (2-MBI) for mercury adsorption. The impregnated adsorbent was characterized for surface morphology and surface chemistry by using FTIR, FESEM and EDX analyzers. A constant concentration of 15 ppbv of Hg 0 was generated through a permeation tube and passed through the adsorbent bed. A 3 2 full factorial design of experiments with three replicates, a total of 27 runs, was employed for adsorption studies. Two factors, (i) temperature (80, 110 and 140 °C) and (ii) mass of 2-MBI (5, 10 and 15 wt%), were investigated for Hg 0 removal. A regression model was developed and validated by applying ANOVA analysis to study the effect of temperature, mass of 2-MBI and their interaction on Hg 0 adsorption. The results showed that Hg 0 adsorption increased with increasing temperature and mass of 2-MBI. The maximum Hg 0 adsorption (7.54 μg g −1 , 78% removal) was obtained at 140 °C and 15 wt% of 2-MBI. This study indicates the 2-MBI impregnated CaCO 3 has potential for Hg 0 removal and opens an avenue for concurrent removal of SO 2 . We demonstrated removal of Hg 0 vapor by adsorbing it on thiol-impregnated calcium carbonate and assessed the significance of temperature and thiol mass in Hg 0 removal.
ISSN:2046-2069
DOI:10.1039/c5ra10902g