Kinetics, equilibrium and thermodynamics studies of arsenate adsorption from aqueous solutions onto iron hydroxide

T. Mahmood; S. U. Din; A. Naeem; S. Tasleem; Absar Alum; S. Mustafa

doi:10.1016/j.jiec.2013.12.004

Kinetics, equilibrium and thermodynamics studies of arsenate adsorption from aqueous solutions onto iron hydroxide

T. Mahmood, S. U. Din, A. Naeem, S. Tasleem, Absar Alum, S. Mustafa

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34 Scopus citations

Abstract

This paper reports the equilibrium, kinetics and thermodynamic studies of arsenate adsorption onto freshly precipitated iron hydroxide. Adsorption of arsenate onto iron hydroxide depends on arsenate concentration, contact time and temperature. The intrapartical diffusion model indicates that both the film and intrapartical diffusion control arsenate adsorption on iron hydroxide. The values of activation energies (E_a) indicate the chemical nature of adsorption accompanied by diffusion controlled processes as the rate limiting step. The endothermic nature of the adsorption process suggests that adsorption reaction consumes energy. The negative values of δS^# can be assigned to decreased randomness at the solid liquid interface.

Original language	English (US)
Pages (from-to)	3234-3242
Number of pages	9
Journal	Journal of Industrial and Engineering Chemistry
Volume	20
Issue number	5
DOIs	https://doi.org/10.1016/j.jiec.2013.12.004
State	Published - Sep 25 2014

Keywords

Arsenate
Film diffusion
Metal oxide
Sorption

ASJC Scopus subject areas

General Chemical Engineering

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10.1016/j.jiec.2013.12.004

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title = "Kinetics, equilibrium and thermodynamics studies of arsenate adsorption from aqueous solutions onto iron hydroxide",

abstract = "This paper reports the equilibrium, kinetics and thermodynamic studies of arsenate adsorption onto freshly precipitated iron hydroxide. Adsorption of arsenate onto iron hydroxide depends on arsenate concentration, contact time and temperature. The intrapartical diffusion model indicates that both the film and intrapartical diffusion control arsenate adsorption on iron hydroxide. The values of activation energies (Ea) indicate the chemical nature of adsorption accompanied by diffusion controlled processes as the rate limiting step. The endothermic nature of the adsorption process suggests that adsorption reaction consumes energy. The negative values of δS# can be assigned to decreased randomness at the solid liquid interface.",

keywords = "Arsenate, Film diffusion, Metal oxide, Sorption",

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T1 - Kinetics, equilibrium and thermodynamics studies of arsenate adsorption from aqueous solutions onto iron hydroxide

AU - Mahmood, T.

AU - Din, S. U.

AU - Naeem, A.

AU - Tasleem, S.

AU - Alum, Absar

AU - Mustafa, S.

PY - 2014/9/25

Y1 - 2014/9/25

N2 - This paper reports the equilibrium, kinetics and thermodynamic studies of arsenate adsorption onto freshly precipitated iron hydroxide. Adsorption of arsenate onto iron hydroxide depends on arsenate concentration, contact time and temperature. The intrapartical diffusion model indicates that both the film and intrapartical diffusion control arsenate adsorption on iron hydroxide. The values of activation energies (Ea) indicate the chemical nature of adsorption accompanied by diffusion controlled processes as the rate limiting step. The endothermic nature of the adsorption process suggests that adsorption reaction consumes energy. The negative values of δS# can be assigned to decreased randomness at the solid liquid interface.

AB - This paper reports the equilibrium, kinetics and thermodynamic studies of arsenate adsorption onto freshly precipitated iron hydroxide. Adsorption of arsenate onto iron hydroxide depends on arsenate concentration, contact time and temperature. The intrapartical diffusion model indicates that both the film and intrapartical diffusion control arsenate adsorption on iron hydroxide. The values of activation energies (Ea) indicate the chemical nature of adsorption accompanied by diffusion controlled processes as the rate limiting step. The endothermic nature of the adsorption process suggests that adsorption reaction consumes energy. The negative values of δS# can be assigned to decreased randomness at the solid liquid interface.

KW - Arsenate

KW - Film diffusion

KW - Metal oxide

KW - Sorption

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M3 - Article

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VL - 20

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EP - 3242

JO - Journal of Industrial and Engineering Chemistry

JF - Journal of Industrial and Engineering Chemistry

IS - 5

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Kinetics, equilibrium and thermodynamics studies of arsenate adsorption from aqueous solutions onto iron hydroxide

Abstract

Keywords

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