期刊
JOURNAL OF THE ENERGY INSTITUTE
卷 93, 期 4, 页码 1411-1418出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.joei.2020.01.003
关键词
Iron modified activated carbon; Ion exchange; Flue gases; Mercury; Temperature programmed decomposition desorption process
资金
- Zhejiang Province Nature Science of China [LY19E060003, LQ19B060009]
Ion exchange method was applied to synthesize iron modified activated carbon in the present study. The carbon in volatile compounds of cation-exchange resin could be fixed by ferric ion, resulting in the higher carbon yields of iron contained adsorbents. The optimal temperatures for carbonization and activation of ferric ion-exchanged resin were determined to be 800 degrees C. The iron modified activated carbon with (Fe/AC-800) and without (Fe/C-800) activation at 800 degrees C showed different mercury removal mechanisms, and they could be employed to remove mercury from flue gases at reaction temperatures of 180 and 150 degrees C, respectively. HgO, HgS and HgSO4 were the mainly mercury compounds generated over spent Fe/ C-800, whereas only HgO and HgS were observed over spent Fe/AC-800. The formation of HgO over spent Fe/C-800 and Fe/AC-800 were mainly due to the oxidation of mercury by chemisorbed oxygen and lattice oxygen, respectively. The HgSO4 was derived from FeS with the aid of oxygen, and the HgS was formed through the reaction between mercury and FeS and/or elemental sulfur. (C) 2020 Energy Institute. Published by Elsevier Ltd. All rights reserved.
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