Phosphate sorption to quintinite in aqueous solutions: Kinetic, thermodynamic and equilibrium analyses

Authors
Kim, Jae-HyunPark, Jeong-AnnKang, Jin-KyuKim, Song-BaeLee, Chang-GuLee, Sang-HyupChoi, Jae-Woo
Issue Date
2015-03
Publisher
KOREAN SOC ENVIRONMENTAL ENGINEERS
Citation
ENVIRONMENTAL ENGINEERING RESEARCH, v.20, no.1, pp.73 - 78
Abstract
The aim of this study was to examine the phosphate (P) removal by quintinite from aqueous solutions. Batch experiments were performed to examine the effects of reaction time, temperature, initial phosphate concentration, initial solution pH and stream water on the phosphate adsorption to quintinite. Kinetic, thermodynamic and equilibrium isotherm models were used to analyze the experimental data. Results showed that the maximum P adsorption capacity was 4.77 mgP/g under given conditions (initial P concentration = 2-20 mgP/L; adsorbent dose = 1.2 g/L; reaction time = 4 hr). Kinetic model analysis showed that the pseudo second-order model was the most suitable for describing the kinetic data. Thermodynamic analysis indicated that phosphate sorption to quintinite increased with increasing temperature from 15 to 45 degrees C, indicating the spontaneous and endothermic nature of sorption process (Delta H-0=487.08 kJ/mol; Delta S-0=1,696.12 J/(K. mol); Delta G(0)=-1.67 to -52.56 kJ/mol). Equilibrium isotherm analysis demonstrated that both Freundlich and Redlich-Peterson models were suitable for describing the equilibrium data. In the pH experiments, the phosphate adsorption to quintinite was not varied at pH 3.0-7.1 (1.50-1.55 mgP/g) but decreased considerably at a highly alkaline solution (0.70 mgP/g at pH 11.0). Results also indicated that under given conditions (initial P concentration=2 mgP/L; adsorbent dose=0.8 g/L; reaction time=4 hr), phosphate removal in the stream water (1.88 mgP/g) was lower than that in the synthetic solution (2.07 mgP/g), possibly due to the presence of anions such as (bi) carbonate and sulfate in the stream water.
Keywords
Batch experiment; Hydrotalcite-like particle; Phosphate; Quintinite; Sorption
ISSN
1226-1025
URI
https://pubs.kist.re.kr/handle/201004/125695
DOI
10.4491/eer.2014.053
Appears in Collections:
KIST Article > 2015
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