Jean-Éric Lartigue scite author profile

The dissolution rates of natural fluorapatite (FAP), Ca 10 (PO 4 ) 6 F 2 , were measured at 25°C in mixed-flow reactors as a function of pH from 3.0 to 11.7, and aqueous calcium, phosphorus, and fluoride concentration. After an initial preferential Ca and/or F release, stoichiometric Ca, P, and F release was observed. Measured FAP dissolution rates decrease with increasing pH at 3 6 pH 6 7, FAP dissolution rates are pH independent at 7 6 pH 6 10, and FAP dissolution rates again decrease with increasing pH at pH P 10. Measured FAP dissolution rates are independent of aqueous Ca, P, and F concentration at pH % 3 and pH % 10.Apatite dissolution appears to be initiated by the relatively rapid removal from the near surface of F and the Ca located in the M1 sites, via proton for Ca exchange reactions. Dissolution rates are controlled by the destruction of this F and Ca depleted surface layer. The destruction of this layer is facilitated by the adsorption/penetration of protons into the surface at acidic conditions, and by surface hydration at neutral and basic conditions. Taking into account these two parallel mechanisms, measured fluorapatite forward dissolution rates can be accurately described using2þ a 1:4 F À a 0:6 OH À a 6 H þ Kex þ 3:69 Â 10 À8 ½BCaOH þ 2 0:6AE0:1where a i refers to the activity of the ith aqueous species, ½BCaOH þ 2 denotes the concentration of hydrated calcium sites at the surface of the leached layer (mol m À2 ), and K ex and K ads stand for the apparent stability constants of the Ca 2+ /H + exchange and adsorption/penetration reactions, respectively.

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New conditionings for separated long-lived radionuclides

Guy

Audubert

Lartigue

et al. 2002

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Jean-Éric Lartigue

SON68 nuclear glass dissolution kinetics: Current state of knowledge and basis of the new GRAAL model

Application of the GRAAL model to leaching experiments with SON68 nuclear glass in initially pure water

Kinetics and mechanism of natural fluorapatite dissolution at 25°C and pH from 3 to 12

New conditionings for separated long-lived radionuclides

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