High efficiency removal of organic and inorganic iodine with ferrate[Fe(VI)] through oxidation and adsorption

•Iodide and organic iodine could be synchronously oxidized and removed by Fe(VI).•The adsorption kinetics of iodide and iodate by Fe(VI) were fast.•Fe(VI) exhibited superior iodine adsorption capacity than other iodine adsorbents.•Iodine adsorption mechanism was revealed through characterization and...

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Published inWater research (Oxford) Vol. 246; p. 120671
Main Authors Wang, Xian-Shi, Ma, Cai-Ni, Liu, Yu-Lei, Wang, Gui-Jing, Tang, Bo, Song, Heng, Gao, Zhi, Ma, Jun, Wang, Lu
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2023
Subjects
Adsorption
Coprecipitation
Ferrate
Iodate
Iodide
Iodate
Iodide
Ferrate
Adsorption
Coprecipitation
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Abstract •Iodide and organic iodine could be synchronously oxidized and removed by Fe(VI).•The adsorption kinetics of iodide and iodate by Fe(VI) were fast.•Fe(VI) exhibited superior iodine adsorption capacity than other iodine adsorbents.•Iodine adsorption mechanism was revealed through characterization and DFT calculation. I− is a halogen species existing in natural waters, and the transformation of organic and inorganic iodine in natural and artificial processes would impact the quality of drinking water. Herein, it was found that Fe(VI) could oxidize organic and inorganic iodine to IO3−and simultaneously remove the resulted IO3− through Fe(III) particles. For the river water, wastewater treatment plant (WWTP) effluent, and shale gas wastewater treated by 5 mg/L of Fe(VI) (as Fe), around 63 %, 55 % and 71 % of total iodine (total-I) had been removed within 10 min, respectively. Fe(VI) was superior to coagulants in removing organic and inorganic iodine from the source water. Adsorption kinetic analysis suggested that the equilibrium adsorption amount of I− and IO3− were 11 and 10.1 μg/mg, respectively, and the maximum adsorption capacity of IO3− by Fe(VI) resulted Fe(III) particles was as high as 514.7 μg/mg. The heterogeneous transformation of Fe(VI) into Fe(III) effectively improved the interaction probability of IO3− with iron species. Density functional theory (DFT) calculation suggested that the IO3− was mainly adsorbed in the cavity (between the γ-FeOOH shell and γ-Fe2O3 core) of Fe(III) particles through electrostatic adsorption, van der Waals force and hydrogen bond. Fe(VI) treatment is effective for inhibiting the formation of iodinated disinfection by-products in chlor(am)inated source water. [Display omitted]
AbstractList •Iodide and organic iodine could be synchronously oxidized and removed by Fe(VI).•The adsorption kinetics of iodide and iodate by Fe(VI) were fast.•Fe(VI) exhibited superior iodine adsorption capacity than other iodine adsorbents.•Iodine adsorption mechanism was revealed through characterization and DFT calculation. I− is a halogen species existing in natural waters, and the transformation of organic and inorganic iodine in natural and artificial processes would impact the quality of drinking water. Herein, it was found that Fe(VI) could oxidize organic and inorganic iodine to IO3−and simultaneously remove the resulted IO3− through Fe(III) particles. For the river water, wastewater treatment plant (WWTP) effluent, and shale gas wastewater treated by 5 mg/L of Fe(VI) (as Fe), around 63 %, 55 % and 71 % of total iodine (total-I) had been removed within 10 min, respectively. Fe(VI) was superior to coagulants in removing organic and inorganic iodine from the source water. Adsorption kinetic analysis suggested that the equilibrium adsorption amount of I− and IO3− were 11 and 10.1 μg/mg, respectively, and the maximum adsorption capacity of IO3− by Fe(VI) resulted Fe(III) particles was as high as 514.7 μg/mg. The heterogeneous transformation of Fe(VI) into Fe(III) effectively improved the interaction probability of IO3− with iron species. Density functional theory (DFT) calculation suggested that the IO3− was mainly adsorbed in the cavity (between the γ-FeOOH shell and γ-Fe2O3 core) of Fe(III) particles through electrostatic adsorption, van der Waals force and hydrogen bond. Fe(VI) treatment is effective for inhibiting the formation of iodinated disinfection by-products in chlor(am)inated source water. [Display omitted]
I- is a halogen species existing in natural waters, and the transformation of organic and inorganic iodine in natural and artificial processes would impact the quality of drinking water. Herein, it was found that Fe(VI) could oxidize organic and inorganic iodine to IO3-and simultaneously remove the resulted IO3- through Fe(III) particles. For the river water, wastewater treatment plant (WWTP) effluent, and shale gas wastewater treated by 5 mg/L of Fe(VI) (as Fe), around 63 %, 55 % and 71 % of total iodine (total-I) had been removed within 10 min, respectively. Fe(VI) was superior to coagulants in removing organic and inorganic iodine from the source water. Adsorption kinetic analysis suggested that the equilibrium adsorption amount of I- and IO3- were 11 and 10.1 μg/mg, respectively, and the maximum adsorption capacity of IO3- by Fe(VI) resulted Fe(III) particles was as high as 514.7 μg/mg. The heterogeneous transformation of Fe(VI) into Fe(III) effectively improved the interaction probability of IO3- with iron species. Density functional theory (DFT) calculation suggested that the IO3- was mainly adsorbed in the cavity (between the γ-FeOOH shell and γ-Fe2O3 core) of Fe(III) particles through electrostatic adsorption, van der Waals force and hydrogen bond. Fe(VI) treatment is effective for inhibiting the formation of iodinated disinfection by-products in chlor(am)inated source water.
ArticleNumber 120671
Author Liu, Yu-Lei
Wang, Gui-Jing
Tang, Bo
Wang, Xian-Shi
Song, Heng
Gao, Zhi
Wang, Lu
Ma, Cai-Ni
Ma, Jun
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  email: wanglu9195@163.com
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crossref_primary_10_1016_j_jhazmat_2024_134758
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Iodide
Ferrate
Adsorption
Coprecipitation
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Snippet •Iodide and organic iodine could be synchronously oxidized and removed by Fe(VI).•The adsorption kinetics of iodide and iodate by Fe(VI) were fast.•Fe(VI)...
I- is a halogen species existing in natural waters, and the transformation of organic and inorganic iodine in natural and artificial processes would impact the...
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StartPage 120671
SubjectTerms Adsorption
Coprecipitation
Ferrate
Iodate
Iodide
Title High efficiency removal of organic and inorganic iodine with ferrate[Fe(VI)] through oxidation and adsorption
URI https://dx.doi.org/10.1016/j.watres.2023.120671
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