2018
DOI: 10.4491/eer.2018.042
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Fixed bed column modeling of lead(II) and cadmium(II) ions biosorption on sugarcane bagasse

Abstract: In this paper the results of the biosorption of lead(II) and cadmium(II) with sugarcane bagasse in fixed bed columns are presented. Experimental data were fitted to several models describing the rupture curve for single-component and two-component systems. The percentages of removal of lead and cadmium in single-component systems are 91% and 90%, respectively. In lead-cadmium bicomponent systems the percentage of elimination of lead was 90% and cadmium 92%. In single-component systems, Yoon-Nelson and Thomas m… Show more

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Cited by 51 publications
(26 citation statements)
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“…The results showed that higher sorption capacity was obtained between pH 2 and 5 where lead occurred only as Pb 2+ species up to pH 6.0. This was also achieved in the research work done by [64]. Since HCl was used to adjust pH, it was suggested that there might be lead chloride complexes formation.…”
Section: Speciationmentioning
confidence: 82%
“…The results showed that higher sorption capacity was obtained between pH 2 and 5 where lead occurred only as Pb 2+ species up to pH 6.0. This was also achieved in the research work done by [64]. Since HCl was used to adjust pH, it was suggested that there might be lead chloride complexes formation.…”
Section: Speciationmentioning
confidence: 82%
“…Bio-sorbents generated from agricultural wastes and/or industrial by-products are mostly used for the removal of heavy metals from contaminated effluents. Several bio-sorbents derived from agricultural by-products have been used for treating industrial effluents such as, orange peel [11], banana peel [12,13], potato peel [14], corn cob [15], lemon peel [16], watermelon rind [17], sugarcane bagasse [18], palm leaf, water hyacinth [19], pine saw dust [20], moringa pod [21], hazelnut shell, peanut shells, rice husk [22]. These bio-sorbents contain cellulose, hemicellulose, lignin, lipids, proteins, hydrocarbons and starch, comprising of various functional groups with possibility of sequestration of many pollutants [23,24].…”
Section: Introductionmentioning
confidence: 99%
“…Los métodos y tratamientos habituales son diversos y garantizan la capacidad de remoción; sin embargo, existiendo la posibilidad de reducir costos sin sacrificar eficiencias de remoción, se recurre a métodos o tecnologías económicas y eficaces con bio-adsorbentes [15]. Hay diversos estudios comparativos de bioadsobentes [16] en efluentes mineros [17] en residuos de origen agrícola [18] y de aguas domésticas [19], así como desde microorganismos [20] que son algunos de los bioadsorbentes del futuro [21]. Hay trabajos de absorción de metales pesados mediante bacterias [22], keratina [23] y algas [24] [25].…”
Section: Marco Teóricounclassified