Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption
[EN] To improve the desulfurization capability of activated carbons, new metal-loaded carbon-based sorbents containing sodium, cobalt, copper, and silver highly dispersed within the carbon matrix were prepared and tested at room temperature for dibenzothiophene (DBT) adsorption. The content of metals can be controlled by selective washing. The new adsorbents showed good adsorption capacities and selectivity towards DBT. The metals incorporated to the surface act not only as active sites for selective adsorption of sulfur-containing aromatic compounds, but also as structural stabilizers of the carbon materials, and as catalyst initiators in reactive adsorption. Depending on the reactivity of the metal used, the adsorption capacity of the activated carbons significantly varied. Cobalt and copper loaded carbons showed the highest uptakes, due to not-well defined catalytic synergetic effects. Besides, the presence of sulfur compounds in the structure of the carbon as a result of the sulfonic moiety of the precursor, results in sulfur–sulfur specific interactions leading to an enhancement in the adsorption capacity for DBT removal.
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2006-10
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| Subjects: | Chemically modified carbons, Impregnation, Adsorption properties, |
| Online Access: | http://hdl.handle.net/10261/94141 |
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dig-incar-es-10261-941412018-11-15T12:30:25Z Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption Ovín Ania, María Concepción Bandosz, Teresa J. Chemically modified carbons Impregnation Adsorption properties [EN] To improve the desulfurization capability of activated carbons, new metal-loaded carbon-based sorbents containing sodium, cobalt, copper, and silver highly dispersed within the carbon matrix were prepared and tested at room temperature for dibenzothiophene (DBT) adsorption. The content of metals can be controlled by selective washing. The new adsorbents showed good adsorption capacities and selectivity towards DBT. The metals incorporated to the surface act not only as active sites for selective adsorption of sulfur-containing aromatic compounds, but also as structural stabilizers of the carbon materials, and as catalyst initiators in reactive adsorption. Depending on the reactivity of the metal used, the adsorption capacity of the activated carbons significantly varied. Cobalt and copper loaded carbons showed the highest uptakes, due to not-well defined catalytic synergetic effects. Besides, the presence of sulfur compounds in the structure of the carbon as a result of the sulfonic moiety of the precursor, results in sulfur–sulfur specific interactions leading to an enhancement in the adsorption capacity for DBT removal. The authors wish to thank FICYT and PSC CUNY for financial support. We thank Dr. Parra for kindly providing SEM and XRD. Peer reviewed 2014-03-25T08:11:15Z 2014-03-25T08:11:15Z 2006-10 artículo http://purl.org/coar/resource_type/c_6501 Carbon 44(12): 2404-2412 (2006) 0008-6223 http://hdl.handle.net/10261/94141 10.1016/j.carbon.2006.05.016 en Postprint http://dx.doi.org/10.1016/j.carbon.2006.05.016 open Elsevier |
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Chemically modified carbons Impregnation Adsorption properties Chemically modified carbons Impregnation Adsorption properties |
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Chemically modified carbons Impregnation Adsorption properties Chemically modified carbons Impregnation Adsorption properties Ovín Ania, María Concepción Bandosz, Teresa J. Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| description |
[EN] To improve the desulfurization capability of activated carbons, new metal-loaded carbon-based sorbents containing sodium, cobalt, copper, and silver highly dispersed within the carbon matrix were prepared and tested at room temperature for dibenzothiophene (DBT) adsorption. The content of metals can be controlled by selective washing. The new adsorbents showed good adsorption capacities and selectivity towards DBT. The metals incorporated to the surface act not only as active sites for selective adsorption of sulfur-containing aromatic compounds, but also as structural stabilizers of the carbon materials, and as catalyst initiators in reactive adsorption. Depending on the reactivity of the metal used, the adsorption capacity of the activated carbons significantly varied. Cobalt and copper loaded carbons showed the highest uptakes, due to not-well defined catalytic synergetic effects. Besides, the presence of sulfur compounds in the structure of the carbon as a result of the sulfonic moiety of the precursor, results in sulfur–sulfur specific interactions leading to an enhancement in the adsorption capacity for DBT removal. |
| format |
artículo |
| topic_facet |
Chemically modified carbons Impregnation Adsorption properties |
| author |
Ovín Ania, María Concepción Bandosz, Teresa J. |
| author_facet |
Ovín Ania, María Concepción Bandosz, Teresa J. |
| author_sort |
Ovín Ania, María Concepción |
| title |
Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| title_short |
Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| title_full |
Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| title_fullStr |
Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| title_full_unstemmed |
Metal-loaded polystyrene-based activated carbons as DBT removal media via reactive adsorption |
| title_sort |
metal-loaded polystyrene-based activated carbons as dbt removal media via reactive adsorption |
| publisher |
Elsevier |
| publishDate |
2006-10 |
| url |
http://hdl.handle.net/10261/94141 |
| work_keys_str_mv |
AT ovinaniamariaconcepcion metalloadedpolystyrenebasedactivatedcarbonsasdbtremovalmediaviareactiveadsorption AT bandoszteresaj metalloadedpolystyrenebasedactivatedcarbonsasdbtremovalmediaviareactiveadsorption |
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1777668917776351232 |