Kinetic Adsorption of Fluoride from an Aqueous Solution onto a Dolomite Sorbent

Aunnop Wongrueng

Benja Sookwong

Pharkphum Rakruam

Suraphong Wattanachira

SUMMARY

The adsorption of fluoride from an aqueous solution onto a dolomite sorbent was studied. The surface morphology of the dolomite sorbent was evaluated, and it was found to have an un-smooth porous structure. The point of zero charge (PZC), specific surface area, and average pore size of the dolomite were observed at pH 8.5, 1.17 m2/g, and 105.7 Å, respectively. The major mineral components of the dolomite sorbent were dolomite, calcite, and quartz. From a kinetic adsorption test, the dolomite sorbent required 12 hours of contact time to reach equilibrium with a fluoride adsorption capacity of 0.000581 mM/g, and the kinetic adsorption fitted well with a pseudo-second order kinetic reaction with a rate constant of 21.07 g/mM·min.

KEYWORDS

Dolomite sorbent - fluoride - point of zero charge - pseudo-second order.

Free Access

PAGES

pp. 1 - 9

NUMBER

Volumen: 20 Número: 3 Parte: 0 (2016)

COLLECTIONS

Architecture and Urbanism

JOURNALS RELATED

Indonesian Journal of Chemical Research
Engineering Journal (EJ)
Eastern-European Journal of Enterprise Technologies

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