Interlayer expansion of dimethyl ditallowylammonium montmorillonite as a function of 2-chloroaniline adsorption.
Articolo
Data di Pubblicazione:
2008
Abstract:
The expansion behaviour of an organically modified montmorillonite during the adsorption of increasing amounts of an organic
pollutant: 2-chloroaniline (2-CA). The organophilic montmorillonite, a commercial product, was obtained exchanging the inorganic
cation with dimethyl ditallowylammonium ions (DMDTA). 2-CA was added to the organoclay, starting from 193.9 ppm up to
23,531.7 ppm going through twenty-two steps of growing quantities of 2-CA. For each of these twenty-two steps – corresponding to a
range of adsorbed 2-CA (Cs) between 0.029 mol/kg (grams of 2-CA per kg of organoclay) and 2.763 mol/kg – the basal spacings were
determined.
The adsorption isotherm was performed according to ASTM D 4646-87 Standard and, by comparing the experimental Cs data
with the corresponding d001 values, the basal expansion of the polluted organoclay is characterized by a steep rise for the first steps
of adsorption of 2-CA (concentration in water at equilibrium Cwb0.00373 mol/L), then the d001 remains almost constant up to the
higher amounts of pollutant adsorbed.
The 001 reflections are sharper, their intensity higher, and up to four orders of 00l reflections are observed as the uptake of 2-CA
increased. Since in aqueous solution the staking of organoclay platelets is poorly ordered, the observed behaviour may be partially
explained by the 2-CA sorbed on the external surface of the clay mineral particles, which brings the silicate layers together.
Finally, a tentative interpretation of the adsorption phenomena was carried out by fitting the experimental data according to the
most common theoretical models: Freundlich, Langmuir, Dual Mode and Dual Langmuir Model.
pollutant: 2-chloroaniline (2-CA). The organophilic montmorillonite, a commercial product, was obtained exchanging the inorganic
cation with dimethyl ditallowylammonium ions (DMDTA). 2-CA was added to the organoclay, starting from 193.9 ppm up to
23,531.7 ppm going through twenty-two steps of growing quantities of 2-CA. For each of these twenty-two steps – corresponding to a
range of adsorbed 2-CA (Cs) between 0.029 mol/kg (grams of 2-CA per kg of organoclay) and 2.763 mol/kg – the basal spacings were
determined.
The adsorption isotherm was performed according to ASTM D 4646-87 Standard and, by comparing the experimental Cs data
with the corresponding d001 values, the basal expansion of the polluted organoclay is characterized by a steep rise for the first steps
of adsorption of 2-CA (concentration in water at equilibrium Cwb0.00373 mol/L), then the d001 remains almost constant up to the
higher amounts of pollutant adsorbed.
The 001 reflections are sharper, their intensity higher, and up to four orders of 00l reflections are observed as the uptake of 2-CA
increased. Since in aqueous solution the staking of organoclay platelets is poorly ordered, the observed behaviour may be partially
explained by the 2-CA sorbed on the external surface of the clay mineral particles, which brings the silicate layers together.
Finally, a tentative interpretation of the adsorption phenomena was carried out by fitting the experimental data according to the
most common theoretical models: Freundlich, Langmuir, Dual Mode and Dual Langmuir Model.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
ORGANOCLAY; ADSORPTION; POLLUTANT; INTERLAYER SPACING
Elenco autori:
Zampori, L.; GALLO STAMPINO, P.; Dotelli, G.; Botta, D.; NATALI SORA, I.; Setti, Massimo
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