Sorption of humic acid on zeolitic tuff: a preliminary investigation

This work involves a study of the interaction of humic acid (HA) with zeolitic (phillipsite+chabazite) Neapolitan yellow tuff (NYT). HA sorption isotherms were carried out on untreated as well as on Li +-, Na +-, K +-, NH 4 +-, Ca 2+-, Mg 2+-, or Ba 2+-enriched samples. Except for the Li-enriched sa...

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Bibliographic Details
Published in:Applied clay science 2005, Vol.28 (1), p.159-165
Main Authors: Capasso, S., Salvestrini, S., Coppola, E., Buondonno, A., Colella, C.
Format: Article
Language:English
Subjects:
Cation selectivity
Chabazite
Earth sciences
Earth, ocean, space
Exact sciences and technology
Humic acid
Mineralogy
Phillipsite
Silicates
Sorption
Zeolitic tuff
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Summary:This work involves a study of the interaction of humic acid (HA) with zeolitic (phillipsite+chabazite) Neapolitan yellow tuff (NYT). HA sorption isotherms were carried out on untreated as well as on Li +-, Na +-, K +-, NH 4 +-, Ca 2+-, Mg 2+-, or Ba 2+-enriched samples. Except for the Li-enriched sample, Langmuir sorption curves fitted the experimental data, allowing the calculation of the maximum HA sorbable amount, Q max, and the affinity constant between the sorbate and the sorbent, k. The Q max for the untreated sample was 8512±265 mg kg −1, with k=10.8±1.4 l kg −1. The experimental amounts of HA taken up by the Li-enriched sample were very small (183 to 2322 mg kg −1) and too scattered to be consistently fitted by any significant equation. For other cation enriched-samples, the HA- Q max amounts ranged from 6583±205 mg kg −1 for the K-treated tuff to 22 029±1065 mg kg −1 for the Mg-treated tuff, whereas the k values ranged from 8.0±1.7 l kg −1 for the Na-treated tuff to 81.4±17.5 l kg −1 for the Ba-treated tuff. The tuff samples enriched by divalent cations took up HA in amounts larger than those observed for the untreated sample; the opposite was true for the monovalent cation-enriched samples. The HA sorption curves on monovalent cation-enriched tuff were scarcely different, within experimental variance, from those observed for the untreated sample. On the contrary, both the Q max and the k values calculated for the HA sorption on the divalent cation-enriched samples were widely and significantly larger than those of the untreated sample, with the highest Q max for Mg- and Ca-enriched sample, and the highest k value for the Ba-enriched one. The results demonstrate that enrichment by divalent cations enhances the ability of Neapolitan yellow tuff to take up humic acid, whereas enrichment by monovalent cations reduces it; the results also show that humic acid sorption on tuff must be regarded as a complex phenomenon, occurring as a compromise between the ability of the cations to form stable bridges with the organic matter, and, on the other hand, their specific selective sorption by the tuff.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2004.01.010