Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles: Process optimization using response surface methodology

A. Ramazanpour Esfahani; A. Farrokhian Firouzi; Gh Sayyad; A. Kiasat; L. Alidokht; A. R. Khataee

doi:10.1007/s11164-012-0975-1

Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles: Process optimization using response surface methodology

A. Ramazanpour Esfahani, A. Farrokhian Firouzi^*, Gh Sayyad, A. Kiasat, L. Alidokht, A. R. Khataee

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

46 Citations (Scopus)

Abstract

Optimization and modeling of Pb(II) removal using polyacrylic acid stabilized zero-valent iron nanoparticles (PAA-ZVINs) from aqueous solution was performed. Central composite design (CCD) as the most applicable method in response surface methodology (RSM) was employed for optimization of Pb(II) removal. ZVINs were synthesized using the borohydride reduction method in the presence of PAA as a stabilizer and characterized via scanning electron microscopy (SEM) and X-ray diffraction (XRD). The independent variables for CCD optimization of Pb(II) removal were initial solution pH, ZVINs concentration (g/L), and initial concentration of Pb(II) (mg/L). Results showed a significant correlation between predicted values obtained from second-order polynomial model and experimental values (R ² = 93.19 and adj-R ² = 87.07). Maximum removal of Pb(II) (90.09 %) was observed at the optimal conditions of ZVINs concentration of 3 g/L, initial Pb(II) concentration of 10 mg/L, and initial solution pH of 5.

Original language	English
Pages (from-to)	431-445
Number of pages	15
Journal	Research on Chemical Intermediates
Volume	40
Issue number	1
DOIs	https://doi.org/10.1007/s11164-012-0975-1
Publication status	Published - Jan 2014
Externally published	Yes

Keywords

Central composite design
Nanosized zero-valent iron
Pb(II) removal
Polyacrylic acid

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10.1007/s11164-012-0975-1

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title = "Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles: Process optimization using response surface methodology",

abstract = "Optimization and modeling of Pb(II) removal using polyacrylic acid stabilized zero-valent iron nanoparticles (PAA-ZVINs) from aqueous solution was performed. Central composite design (CCD) as the most applicable method in response surface methodology (RSM) was employed for optimization of Pb(II) removal. ZVINs were synthesized using the borohydride reduction method in the presence of PAA as a stabilizer and characterized via scanning electron microscopy (SEM) and X-ray diffraction (XRD). The independent variables for CCD optimization of Pb(II) removal were initial solution pH, ZVINs concentration (g/L), and initial concentration of Pb(II) (mg/L). Results showed a significant correlation between predicted values obtained from second-order polynomial model and experimental values (R 2 = 93.19 and adj-R 2 = 87.07). Maximum removal of Pb(II) (90.09 %) was observed at the optimal conditions of ZVINs concentration of 3 g/L, initial Pb(II) concentration of 10 mg/L, and initial solution pH of 5.",

keywords = "Central composite design, Nanosized zero-valent iron, Pb(II) removal, Polyacrylic acid",

author = "Esfahani, {A. Ramazanpour} and Firouzi, {A. Farrokhian} and Gh Sayyad and A. Kiasat and L. Alidokht and Khataee, {A. R.}",

year = "2014",

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Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles: Process optimization using response surface methodology. / Esfahani, A. Ramazanpour; Firouzi, A. Farrokhian; Sayyad, Gh et al.
In: Research on Chemical Intermediates, Vol. 40, No. 1, 01.2014, p. 431-445.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles

T2 - Process optimization using response surface methodology

AU - Esfahani, A. Ramazanpour

AU - Firouzi, A. Farrokhian

AU - Sayyad, Gh

AU - Kiasat, A.

AU - Alidokht, L.

AU - Khataee, A. R.

PY - 2014/1

Y1 - 2014/1

N2 - Optimization and modeling of Pb(II) removal using polyacrylic acid stabilized zero-valent iron nanoparticles (PAA-ZVINs) from aqueous solution was performed. Central composite design (CCD) as the most applicable method in response surface methodology (RSM) was employed for optimization of Pb(II) removal. ZVINs were synthesized using the borohydride reduction method in the presence of PAA as a stabilizer and characterized via scanning electron microscopy (SEM) and X-ray diffraction (XRD). The independent variables for CCD optimization of Pb(II) removal were initial solution pH, ZVINs concentration (g/L), and initial concentration of Pb(II) (mg/L). Results showed a significant correlation between predicted values obtained from second-order polynomial model and experimental values (R 2 = 93.19 and adj-R 2 = 87.07). Maximum removal of Pb(II) (90.09 %) was observed at the optimal conditions of ZVINs concentration of 3 g/L, initial Pb(II) concentration of 10 mg/L, and initial solution pH of 5.

AB - Optimization and modeling of Pb(II) removal using polyacrylic acid stabilized zero-valent iron nanoparticles (PAA-ZVINs) from aqueous solution was performed. Central composite design (CCD) as the most applicable method in response surface methodology (RSM) was employed for optimization of Pb(II) removal. ZVINs were synthesized using the borohydride reduction method in the presence of PAA as a stabilizer and characterized via scanning electron microscopy (SEM) and X-ray diffraction (XRD). The independent variables for CCD optimization of Pb(II) removal were initial solution pH, ZVINs concentration (g/L), and initial concentration of Pb(II) (mg/L). Results showed a significant correlation between predicted values obtained from second-order polynomial model and experimental values (R 2 = 93.19 and adj-R 2 = 87.07). Maximum removal of Pb(II) (90.09 %) was observed at the optimal conditions of ZVINs concentration of 3 g/L, initial Pb(II) concentration of 10 mg/L, and initial solution pH of 5.

KW - Central composite design

KW - Nanosized zero-valent iron

KW - Pb(II) removal

KW - Polyacrylic acid

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Pb(II) removal from aqueous solution by polyacrylic acid stabilized zero-valent iron nanoparticles: Process optimization using response surface methodology

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