Journal
JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING
Volume 10, Issue 3, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2022.107842
Keywords
Iodine sorption; Stability; Radioactive; Kinetics validity
Categories
Funding
- National Natural Science Foundation of China [51808312]
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LiAlO2-Mel demonstrates high vapor iodine capture capacity and good regeneration ability, with chemisorption playing a critical role and physisorption dominating at lower temperatures.
The search for efficient material to capture iodine from off-gas streams continues. Herein, a novel composite of lithium aluminate and melamine, abbreviated as LiAlO2-Mel, was synthesized and exhibited high vapor iodine capture capacity accompanied by good regeneration ability. The LiAlO2-Mel showed an enormous capture capacity of 1281 mg/g within 4 h towards I-2 (g) at 150 degrees C. The kinetics study showed that the dominant process (at 150 degrees C) was chemisorption via N center dot center dot center dot I and C-NH center dot center dot center dot I bonding mechanisms. Additionally, LiAlO2-Mel has a low surface area (14.6157 m(2) /g) yet produced high capacity, suggesting chemisorption played a critical role. However, physisorption was the dominant process at lower temperature values, as proved by kinetics fittings and activation energy (E-a = 23.19 KJ/mol) studies. The kinetics models were validated by statistical error validity models (sum of square error, Chi-square test, and normalized standard deviation). Thermogravimetric analysis and adsorption-desorption experiments showed that the LiAlO2 -Mel can be recovered by heat treatment (25-800 degrees C) in N-2 atmosphere and ethanol washout (24 h, 25 degrees C) of the LiAlO2-Mel-I. The high capture capacity, along with eco-friendly and cost-effectiveness, highlights the promising potential of LiAlO2-Mel for iodine capture.
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