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Adsorption of perchlorate from water using calcined iron-based layered double hydroxides
Abstract In this study, a new calcined iron-based layered double hydroxide material was synthesized to adsorb perchlorate from water. The MgFe–CO3 layered double hydroxides (MgFe-LDH) were prepared at pH 9–10 and with different molar Mg/Fe ratios (2–5) using a co-precipitation method, and then calcined at a temperature range of 300–900°C. Results showed that the best synthesis conditions to maximize the perchlorate adsorption capacity of the calcined MgFe–CO3 layered double hydroxide (MgFe-CLDH) were the calcination temperature of 550°C and [Mg]/[Fe]=3. Furthermore, the adsorbents and their adsorption products were characterized by X-ray, FT-IR and thermogravimetric analyses. The layered double hydroxide structures in the adsorbent were lost during calcination at 550°C, but were reconstructed subsequent to adsorption of perchlorate, indicating that the ‘memory effect’ appeared to play an important role in perchlorate adsorption. The perchlorate adsorption pattern was well described by the pseudo-second-order kinetic model, while the Freundlich isotherm provided the best fitting of adsorption isotherms with the experimental data at chemical equilibrium at 25°C. Indeed, an initial solution pH of 4–10, a higher adsorbent dose, and a lower initial perchlorate concentration typically favored the removal of perchlorate from water. Furthermore, co-existing anions, including PO4 3−, SO4 2−, Cl− and NO3 −, inhibited the perchlorate adsorption, to different degrees. At 25°C, MgFe-3 CLDH=1.33g/L (calcination temperature=550°C and [Mg]/[Fe]=3), and the initial solution pH of 4–10, 2000μg/L of perchlorate was almost all adsorbed within 720min. This study demonstrated that the new calcined iron-based layered double hydroxide was a promising adsorbent for control of the perchlorate pollution in water.
Highlights ► Cost-effective, toxic-free calcined layered double hydroxides were synthesized. ► The structures were lost during calcination but were reconstructed to perchlorate. ► Perchlorate could be rapidly removed at a broad initial pH range. ► MgFe-CLDH can be easily separated from water by external magnetic force.
Adsorption of perchlorate from water using calcined iron-based layered double hydroxides
Abstract In this study, a new calcined iron-based layered double hydroxide material was synthesized to adsorb perchlorate from water. The MgFe–CO3 layered double hydroxides (MgFe-LDH) were prepared at pH 9–10 and with different molar Mg/Fe ratios (2–5) using a co-precipitation method, and then calcined at a temperature range of 300–900°C. Results showed that the best synthesis conditions to maximize the perchlorate adsorption capacity of the calcined MgFe–CO3 layered double hydroxide (MgFe-CLDH) were the calcination temperature of 550°C and [Mg]/[Fe]=3. Furthermore, the adsorbents and their adsorption products were characterized by X-ray, FT-IR and thermogravimetric analyses. The layered double hydroxide structures in the adsorbent were lost during calcination at 550°C, but were reconstructed subsequent to adsorption of perchlorate, indicating that the ‘memory effect’ appeared to play an important role in perchlorate adsorption. The perchlorate adsorption pattern was well described by the pseudo-second-order kinetic model, while the Freundlich isotherm provided the best fitting of adsorption isotherms with the experimental data at chemical equilibrium at 25°C. Indeed, an initial solution pH of 4–10, a higher adsorbent dose, and a lower initial perchlorate concentration typically favored the removal of perchlorate from water. Furthermore, co-existing anions, including PO4 3−, SO4 2−, Cl− and NO3 −, inhibited the perchlorate adsorption, to different degrees. At 25°C, MgFe-3 CLDH=1.33g/L (calcination temperature=550°C and [Mg]/[Fe]=3), and the initial solution pH of 4–10, 2000μg/L of perchlorate was almost all adsorbed within 720min. This study demonstrated that the new calcined iron-based layered double hydroxide was a promising adsorbent for control of the perchlorate pollution in water.
Highlights ► Cost-effective, toxic-free calcined layered double hydroxides were synthesized. ► The structures were lost during calcination but were reconstructed to perchlorate. ► Perchlorate could be rapidly removed at a broad initial pH range. ► MgFe-CLDH can be easily separated from water by external magnetic force.
Adsorption of perchlorate from water using calcined iron-based layered double hydroxides
Yang, Yiqiong (author) / Gao, Naiyun (author) / Deng, Yang (author) / Zhou, Shiqing (author)
Applied Clay Science ; 65-66 ; 80-86
2012-04-30
7 pages
Article (Journal)
Electronic Resource
English
Adsorption of perchlorate from water using calcined iron-based layered double hydroxides
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