Removal of PFAS by hydrotalcite: Adsorption mechanisms, effect of adsorbent aging, and thermal regeneration

•The adsorption of 9 PFAS on hydrotalcite was studied.•Hydrotalcite calcined near 400 ℃ most effectively adsorbed PFAS.•The adsorption of CO2 and moisture from air reduces PFAS adsorption.•Hydrotalcite can be thermally regenerated for reuse. Layered double hydroxides (LDH) have been shown to be effe...

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Veröffentlicht in:	Water research (Oxford) 2024-08, Vol.260, p.121925, Article 121925
Hauptverfasser:	Kim, Hak-Hyeon, Koster van Groos, Paul G., Zhao, Yuwei, Pham, Anh Le-Tuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorbent regeneration Adsorption Aluminum Hydroxide - chemistry Fluorocarbons - chemistry Layered double hydroxides Magnesium Hydroxide - chemistry Per- and polyfluoroalkyl substances Temperature Water Pollutants, Chemical - chemistry Water Purification - methods
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creator	Kim, Hak-Hyeon Koster van Groos, Paul G. Zhao, Yuwei Pham, Anh Le-Tuan
description	•The adsorption of 9 PFAS on hydrotalcite was studied.•Hydrotalcite calcined near 400 ℃ most effectively adsorbed PFAS.•The adsorption of CO2 and moisture from air reduces PFAS adsorption.•Hydrotalcite can be thermally regenerated for reuse. Layered double hydroxides (LDH) have been shown to be effective adsorbents, but their utility for the treatment of per- and polyfluoroalkyl substances (PFAS) in water has not been fully explored. In this study, the adsorption of 9 PFAS on hydrotalcite (HT), a type of LDH, was investigated using reaction solutions with environmentally relevant PFAS concentrations. The adsorption of individual PFAS by HT depended upon a range of factors, including the temperature used to pre-treat (i.e., calcine) the HT, aging conditions, and the presence of anions in the solution. HT calcined near 400 °C most effectively adsorbed PFAS, but its ability to adsorb PFAS was sensitive to storage conditions. The adsorption of CO2 and moisture from air, which likely resulted in the re-intercalation of CO32− into the interlayer regions of HT, was observed to reduce PFAS adsorption and may explain performance loss over time. The adsorption trend among 9 PFAS and the influence on this process by Cl−, NO3−, SO42−, and CO32− indicated that adsorption occurred via a combination of ion exchange, electrostatic attraction, and hydrophobic interactions, although the relative importance of each mechanism deserves further investigation. During this study, we also demonstrated for the first time that HT can be thermally regenerated at 400 °C without affecting its ability to adsorb PFOS and PFBA. Overall, our results suggest that HT may serve as an effective alternative for PFAS treatment. [Display omitted]
doi_str_mv	10.1016/j.watres.2024.121925
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Layered double hydroxides (LDH) have been shown to be effective adsorbents, but their utility for the treatment of per- and polyfluoroalkyl substances (PFAS) in water has not been fully explored. In this study, the adsorption of 9 PFAS on hydrotalcite (HT), a type of LDH, was investigated using reaction solutions with environmentally relevant PFAS concentrations. The adsorption of individual PFAS by HT depended upon a range of factors, including the temperature used to pre-treat (i.e., calcine) the HT, aging conditions, and the presence of anions in the solution. HT calcined near 400 °C most effectively adsorbed PFAS, but its ability to adsorb PFAS was sensitive to storage conditions. The adsorption of CO2 and moisture from air, which likely resulted in the re-intercalation of CO32− into the interlayer regions of HT, was observed to reduce PFAS adsorption and may explain performance loss over time. The adsorption trend among 9 PFAS and the influence on this process by Cl−, NO3−, SO42−, and CO32− indicated that adsorption occurred via a combination of ion exchange, electrostatic attraction, and hydrophobic interactions, although the relative importance of each mechanism deserves further investigation. During this study, we also demonstrated for the first time that HT can be thermally regenerated at 400 °C without affecting its ability to adsorb PFOS and PFBA. Overall, our results suggest that HT may serve as an effective alternative for PFAS treatment. 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Layered double hydroxides (LDH) have been shown to be effective adsorbents, but their utility for the treatment of per- and polyfluoroalkyl substances (PFAS) in water has not been fully explored. In this study, the adsorption of 9 PFAS on hydrotalcite (HT), a type of LDH, was investigated using reaction solutions with environmentally relevant PFAS concentrations. The adsorption of individual PFAS by HT depended upon a range of factors, including the temperature used to pre-treat (i.e., calcine) the HT, aging conditions, and the presence of anions in the solution. HT calcined near 400 °C most effectively adsorbed PFAS, but its ability to adsorb PFAS was sensitive to storage conditions. The adsorption of CO2 and moisture from air, which likely resulted in the re-intercalation of CO32− into the interlayer regions of HT, was observed to reduce PFAS adsorption and may explain performance loss over time. The adsorption trend among 9 PFAS and the influence on this process by Cl−, NO3−, SO42−, and CO32− indicated that adsorption occurred via a combination of ion exchange, electrostatic attraction, and hydrophobic interactions, although the relative importance of each mechanism deserves further investigation. During this study, we also demonstrated for the first time that HT can be thermally regenerated at 400 °C without affecting its ability to adsorb PFOS and PFBA. Overall, our results suggest that HT may serve as an effective alternative for PFAS treatment. 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subjects	Adsorbent regeneration Adsorption Aluminum Hydroxide - chemistry Fluorocarbons - chemistry Layered double hydroxides Magnesium Hydroxide - chemistry Per- and polyfluoroalkyl substances Temperature Water Pollutants, Chemical - chemistry Water Purification - methods
title	Removal of PFAS by hydrotalcite: Adsorption mechanisms, effect of adsorbent aging, and thermal regeneration
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