Novel Fe loaded activated carbons with tailored properties for As(V) removal: Adsorption study correlated with carbon surface chemistry
Novel Fe loaded activated carbons with tailored properties for As(V) removal: Adsorption study correlated with carbon surface chemistry
Novel Fe loaded activated carbons have been prepared from sugar beet pulp (BP) agricultural residues by direct steam activation followed by iron impregnation with or without previous oxidation. The corresponding activated carbons were: BP-H2O, BP-H2O-Fe, BP-H2O-H2O2-Fe and BP-H2O-MnO2-Fe. The textural characterization of these tailored activated carbons was based on nitrogen adsorption/desorption isotherms leading to BET surface area values between 741 and 821 m(2)/g and total porous volumes between 0.58 and 0.79 cm(3)/g. Elemental analysis and ash content showed that carbon content reached 78\% for BP-H2O with 13.6\% of ash and decreased to 50\% in iron-based materials. BP-H2O and BP-H2O-Fe revealed a basic nature with pH(PZC) values of 9.8 and 9 respectively while BP-H2O-H2O2-Fe and BP-H2O-MnO2-Fe had acid pH(PZC) (5.1 and 3.6). Their surface chemistry has been investigated by XPS analysis and by the quantification of the surface chemical moieties based on Boehm's approach. A clear relationship was found between the surface iron content and the strong acidic groups. Arsenic (As(V)) adsorption isotherms were performed and Langmuir, Freundlich, Redlich-Peterson models were used to describe the experimental data by non-linear regression. It was found that Redlich-Peterson isotherm provided the best fit and the Langmuir adsorption capacities confirmed that the iron-based activated carbons were highly attractive for As(V) removal with capacities up to 17 mg g(-1). Finally, it has been shown that the surface iron content determined by XPS analysis is very well correlated with Langmuir q(m) values (r(2) = 0.982) and with the strong acidic moieties deduced from the Boehm's method.
Activated carbon, Adsorption, Arsenic, Iron modified carbon, Surface characterization
105-112
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Kwan, Siu Ming
96306af5-cc88-4241-b8ad-f756c9b703f8
Torres Perez, Jonatan
0009a2b6-bd30-4921-818e-dd581049aed6
Gonzalez, Luisa F.
c2ddf7c8-5d1c-4b0b-9daa-47595745fc93
Gerente, Claire
7a1f1eaa-9d38-4d30-a6e7-8554f6a678b0
Andres, Yves
1e31e743-5b12-43d9-b44e-d0bf31008d66
McKay, Gordon
f15b1430-8286-4e49-8637-a8687901fcd2
16 January 2013
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Kwan, Siu Ming
96306af5-cc88-4241-b8ad-f756c9b703f8
Torres Perez, Jonatan
0009a2b6-bd30-4921-818e-dd581049aed6
Gonzalez, Luisa F.
c2ddf7c8-5d1c-4b0b-9daa-47595745fc93
Gerente, Claire
7a1f1eaa-9d38-4d30-a6e7-8554f6a678b0
Andres, Yves
1e31e743-5b12-43d9-b44e-d0bf31008d66
McKay, Gordon
f15b1430-8286-4e49-8637-a8687901fcd2
Lodeiro, Pablo, Kwan, Siu Ming, Torres Perez, Jonatan, Gonzalez, Luisa F., Gerente, Claire, Andres, Yves and McKay, Gordon
(2013)
Novel Fe loaded activated carbons with tailored properties for As(V) removal: Adsorption study correlated with carbon surface chemistry.
Chemical Engineering Journal, 215, .
(doi:10.1016/j.cej.2012.11.052).
Abstract
Novel Fe loaded activated carbons have been prepared from sugar beet pulp (BP) agricultural residues by direct steam activation followed by iron impregnation with or without previous oxidation. The corresponding activated carbons were: BP-H2O, BP-H2O-Fe, BP-H2O-H2O2-Fe and BP-H2O-MnO2-Fe. The textural characterization of these tailored activated carbons was based on nitrogen adsorption/desorption isotherms leading to BET surface area values between 741 and 821 m(2)/g and total porous volumes between 0.58 and 0.79 cm(3)/g. Elemental analysis and ash content showed that carbon content reached 78\% for BP-H2O with 13.6\% of ash and decreased to 50\% in iron-based materials. BP-H2O and BP-H2O-Fe revealed a basic nature with pH(PZC) values of 9.8 and 9 respectively while BP-H2O-H2O2-Fe and BP-H2O-MnO2-Fe had acid pH(PZC) (5.1 and 3.6). Their surface chemistry has been investigated by XPS analysis and by the quantification of the surface chemical moieties based on Boehm's approach. A clear relationship was found between the surface iron content and the strong acidic groups. Arsenic (As(V)) adsorption isotherms were performed and Langmuir, Freundlich, Redlich-Peterson models were used to describe the experimental data by non-linear regression. It was found that Redlich-Peterson isotherm provided the best fit and the Langmuir adsorption capacities confirmed that the iron-based activated carbons were highly attractive for As(V) removal with capacities up to 17 mg g(-1). Finally, it has been shown that the surface iron content determined by XPS analysis is very well correlated with Langmuir q(m) values (r(2) = 0.982) and with the strong acidic moieties deduced from the Boehm's method.
This record has no associated files available for download.
More information
Published date: 16 January 2013
Keywords:
Activated carbon, Adsorption, Arsenic, Iron modified carbon, Surface characterization
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 354082
URI: http://eprints.soton.ac.uk/id/eprint/354082
ISSN: 1385-8947
PURE UUID: 9e49f344-a2f3-46e6-9ce9-2c5771413937
Catalogue record
Date deposited: 28 Jun 2013 15:15
Last modified: 14 Mar 2024 14:13
Export record
Altmetrics
Contributors
Author:
Pablo Lodeiro
Author:
Siu Ming Kwan
Author:
Jonatan Torres Perez
Author:
Luisa F. Gonzalez
Author:
Claire Gerente
Author:
Yves Andres
Author:
Gordon McKay
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics