Uranium in granitic magmas: Part 1. Experimental determination of uranium solubility and fluid-melt partition coefficients in the uranium oxide-haplogranite-H 2 O-Na 2 CO 3 system at 720-770°C, 2 kbar

Details Uranium in granitic magmas: Part 1. Experimental determination of uranium solubility and fluid-melt partition coefficients in the uranium oxide-haplogranite-H 2 O-Na 2 CO 3 system at 720-770°C, 2 kbar Uranium in granitic magmas: Part 1. Experimental determination of uranium solubility and fluid-melt partition coefficients in the uranium oxide-haplogranite-H 2 O-Na 2 CO 3 system at 720-770°C, 2 kbar

Jun 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994gecoa..58.2495p&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 58, Issue 11, pp.2495-2507

Computer Science

3

Scientific paper

The solubility of uranium was investigated in both carbonated aqueous fluid and granitic melt in equilibrium in the system haplogranite-uranium oxide-H 2 O-Na 2 CO 3 (0.5-1 molal) at 720-770°C, 2 kbar, and f o 2 fixed by Ni-NiO, Fe 3 O 4 -Fe 2 O 3 , and Cu 2 O-CuO buffers. As complete solid solution exists between UO 2.00 and UO 2.25 (i.e., 75 mol% UO 2 + 25 mol% UO 3 ), three distinct uranium oxides: UO (2.01 ± 0.01) , UO (2.1.0 ± 0.02) , and UO (2.25 ± 0.02) were, respectively, obtained at equilibrium, under the three f o 2 conditions cited above. Thus, the percentage of U (VI) in uranium oxide increased with increasing log f o 2 . The thermal decomposition of Na 2 CO 3 to CO 2 and Na 2 O led to the decrease of the sodium carbonate concentration from 0.5-1 molal to ~10 -2 molal in all aqueous fluids and to the dissolution of Na in the silicate melts. Crystal-free silicate glasses with four agpaitic coefficients, = (( Na + K )/ Al ) = 1.1, 1.3, 1.5, and 1.7 were obtained. The uranium solubility in 10 -2 m aqueous carbonated fluid ((8.1 ± 0.1) quench pH (8.9 ± 0.1)) was in the range 1-17 ppm and increased linearly with increasing f o 2 according to the expression: log (U) (ppm) = 0.09 ·log f o 2 (bar) + 1.47. This equation is valid for the temperature range 720-770°C and 2 kbar. U(IV) carbonate possibly were major species in aqueous solutions under reducing conditions (Ni-NiO buffer) whereas U(VI) carbonate complexes dominated under higher oxidation conditions (Fe 3 O 4 -Fe 2 O 3 , Cu 2 O-CuO buffers). The uranium content in silicate glasses varied in a large range (10 2 -2 × 10 5 ppm) and log (U) (ppm) increases linearly with both f o 2 , and in the range 1.1-1.5 according to the equation log (U) (ppm) = 0.04 log f o 2 (bar) + 3.80 -1.34. This equation is valid for (1) f o 2 ranging from Ni-NiO to Cu 2 O-CuO, and (2) the temperature range 720-770°C at 2 kbar. The effect of f o 2 on the uranium solubility in silicate melt slightly decreased with increasing from 1.1 to 1.5. For in the range 1.5-1.7, the effect of both f o 2 and agpaicity index on the uranium solubility was considerably reduced. The temperature variation in the range 720-770°C had no significant effect on the uranium solubility in either aqueous fluid or silicate melt. The partition coefficient (D fluid/melt ) of uranium was in the range 10 -4.0 -10 -1.5 and depended on both f o 2 and according to the equation log D fluid/melt = 0.05 log f o 2 (bar) - 3.78 + 2.84. The validity conditions of this equation are similar to those of the preceding one. Results obtained in the present study could be used to predict the geochemical behaviour of uranium during magma fractionation and to further understanding of the formation of uranium ore deposits related to partial melting or fractional crystallization of felsic magmas. The genesis of the Kvanefjeld (Ilimaussaq, Greenland) uranium deposit is discussed.

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