Abstract
Silicone zeolite prepared from hexafluorosilicic acid is a good adsorbent for fluoride removal. The morphology
and structure of the prepared composites were characterized by XRD, FT-IR and BET. XRD images showed that
fluorine was adsorbed on the surface of zeolite and the FT-IR spectra showed that there are different kinds of
silicon and aluminum in silica-based zeolite. Therefore, through the studied of regeneration-adsorption cycle of
zeolite, fluoride desorption and regeneration mechanism of zeolite defluorination was explained, and the
adsorption performance and regeneration adsorption performance of zeolite defluorination were evaluated. The
effects of phosphoric acid concentration, operating condition and specific surface area of zeolite and Si/Al ratio
of zeolite on adsorption performance were investigated. Silicate molecule sieve shows strong adsorption capacity
for fluoride (F-), and the adsorption capacity reached 352.46 mg/g under the optimal conditions. The Freundlich
and Langmuir isotherm models for aluminosilicate MCM-41 and NaA zeolite which experimental data of Fadsorption
on in phosphoric acid were fitted to investigate the adsorption mechanism. In the mechanism of anion
adsorption, F- or SiF62- is bound by electrostatic adsorption of hydroxyl on the surface of adsorbent with anion
adsorption. The adsorbed SiF62 ions can be regenerated when the environmental pH increases to value higher
than that of zero charge point of zeolite. There is a competitive adsorption between OH– and F- with negative
charge, which reduces the adsorption efficiency of adsorbent for F-. The NaA zeolite regenerated with NH3⋅H2O
showed better fluorine re-adsorption performance.
and structure of the prepared composites were characterized by XRD, FT-IR and BET. XRD images showed that
fluorine was adsorbed on the surface of zeolite and the FT-IR spectra showed that there are different kinds of
silicon and aluminum in silica-based zeolite. Therefore, through the studied of regeneration-adsorption cycle of
zeolite, fluoride desorption and regeneration mechanism of zeolite defluorination was explained, and the
adsorption performance and regeneration adsorption performance of zeolite defluorination were evaluated. The
effects of phosphoric acid concentration, operating condition and specific surface area of zeolite and Si/Al ratio
of zeolite on adsorption performance were investigated. Silicate molecule sieve shows strong adsorption capacity
for fluoride (F-), and the adsorption capacity reached 352.46 mg/g under the optimal conditions. The Freundlich
and Langmuir isotherm models for aluminosilicate MCM-41 and NaA zeolite which experimental data of Fadsorption
on in phosphoric acid were fitted to investigate the adsorption mechanism. In the mechanism of anion
adsorption, F- or SiF62- is bound by electrostatic adsorption of hydroxyl on the surface of adsorbent with anion
adsorption. The adsorbed SiF62 ions can be regenerated when the environmental pH increases to value higher
than that of zero charge point of zeolite. There is a competitive adsorption between OH– and F- with negative
charge, which reduces the adsorption efficiency of adsorbent for F-. The NaA zeolite regenerated with NH3⋅H2O
showed better fluorine re-adsorption performance.
| Original language | English |
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| DOIs | |
| Publication status | Published - 15 Jan 2023 |
Keywords
- Molecular seive
- Fluoride removal
- Adsorption
- Hexafluorosilicic acid
- Phosphoric acid