Electrochemistry and dissolution kinetics of magnetite and ilmenite

Details Electrochemistry and dissolution kinetics of magnetite and ilmenite Electrochemistry and dissolution kinetics of magnetite and ilmenite

Apr 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994gecoa..58.1859w&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 58, Issue 8, pp.1859-1875

Mathematics

Logic

13

Scientific paper

Natural samples of magnetite and ilmenite were experimentally weathered in pH 1-7 anoxic solutions at temperatures of 2-65 °C. Reaction of magnetite is described as [ Fe 2+ Fe 2 3+ ] O 4(magnetite) + 2 H + [ Fe 2 3+ ] O 3(maghemite) + Fe 2+ + H 2 O . Dynamic polarization experiments using magnetite electrodes confirmed that this reaction is controlled by two electrochemical half cells, 3[ Fe 2+ Fe 2 3+ ] O 4 (magnetite) 4 [ Fe 2 3+ ] O 3 (maghemite) + Fe 2+ + 2 e - and [ Fe 2+ Fe 2 3+ ] O 4(magnetite) + 8 H + + 2 e - 3 Fe 2+ + 4 H 2 O , which result in solid state Fe 3+ reduction, formation of an oxidized layer and release of Fe(II) to solution. XPS data revealed that iron is present in the ferric state in the surfaces of reacted magnetite and ilmenite and that the Ti / Fe ratio increased with reaction pH for ilmenite. Short-term (<36 h) release rates of Fe(II) were linear with time. Between pH 1 and 7, rates varied between 0.3 and 13 × 10 -14 mol · cm -2 · s -1 for magnetite and 0.05 and 12.3 × 10 -14 mol · cm -2 · s -1 for ilmenite. These rates are two orders of magnitude slower than electrochemical rates determined by Tafel and polarization resistance measurements. Discrepancies are due to both differences in geometric and BET surface area estimates and in the oxidation state of the mineral surface. In long-term closed-system experiments (<120 days), Fe(II) release slowed with time due to the passivation of the surfaces by increasing thicknesses of oxide surface layers. A shrinking core model, coupling surface reaction and diffusion transport, predicted that at neutral pH, the mean residence time for sand-size grains of magnetite and ilmenite will exceed 10 7 years. This agrees with long-term stability of these oxides in the geologic record.

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