Simultaneous adsorption of ammonia and phosphate using ferric sulfate modified carbon/zeolite composite from coal gasification slag

Removal of nutrients in water is crucial to control eutrophication. Fly ash has been increasingly used to synthesize zeolite to remove nutrients, but it is still poorly understood about the removal capacity of zeolite synthesized from coal gasification slag (CGS), which has not been well recycled in...

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Published in:Journal of environmental management 2022-03, Vol.305, p.114404-114404, Article 114404
Main Authors: Ma, Xianyao, Li, Yingxue, Xu, Defu, Tian, Hanxin, Yang, Hong
Format: Article
Language:English
Subjects:
Adsorption
Ammonia
Ammonia nitrogen
Carbon
Coal
Coal Ash
Coal gasification slag
Ferric Compounds
Iron modification
Phosphate
Phosphates
Water Pollutants, Chemical - analysis
Zeolite
Zeolites
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Summary:Removal of nutrients in water is crucial to control eutrophication. Fly ash has been increasingly used to synthesize zeolite to remove nutrients, but it is still poorly understood about the removal capacity of zeolite synthesized from coal gasification slag (CGS), which has not been well recycled in many countries. In this study, the CGS was acid leached, alkali dissolved, and synthesized to carbon/zeolite composite (C/ZC) under induction by medical stone. After being modified by ferric sulfate, the composite was analyzed for the adsorption of NH4+ and PO43−. Results showed that the maximum adsorption capacity by C/ZC is 5.17 mg/g, but C/ZC has no adsorption capacity of PO43−. The ferric sulfate was used to modify C/ZC to obtain carbon/zeolite composite modified by iron (M-C/ZC). M-C/ZC has a higher specific surface area (348.3 m2/g), and the negatively charge of M-C/ZC can adsorb NH4+ and form Fe–O–P between PO43− and Fe–OH bonds. The maximum adsorption capacity of NH4+ and PO43− by M-C/ZC are 7.44 mg/g and 6.94 mg/g, respectively. The removal efficiency of NH4+ and PO43− are up to 88% and 99% under initial NH4+ (5 mg/L) and PO43− (10 mg/L) concentration. The regeneration capacity of M-C/ZC of NH4+ was stronger than that of PO43−. After three cycles, the regeneration rate of M-C/ZC of NH4+ was still up to 76.96%. Our findings suggest the good application potential of M-C/ZC for removing NH4+ and PO43− from wastewater. [Display omitted] •Coal gasification slag was used to synthesize carbon/zeolite composite.•Carbon/zeolite composite can adsorb NH4−, but not PO43-.•Iron modification improved the adsorption capacity of carbon/zeolite composite.•The maximum adsorption capacity for NH4− and PO43− are 7.44 mg/g and 6.94 mg/g.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2021.114404