Calculation of amorphous silica solubilities at 25° to 300°C and apparent cation hydration numbers in aqueous salt solutions using the concept of effective density of water

Details Calculation of amorphous silica solubilities at 25° to 300°C and apparent cation hydration numbers in aqueous salt solutions using the concept of effective density of water Calculation of amorphous silica solubilities at 25° to 300°C and apparent cation hydration numbers in aqueous salt solutions using the concept of effective density of water

Mar 1983

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983gecoa..47..587f&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 47, Issue 3, pp.587-596

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Scientific paper

The solubility of amorphous silica in aqueous salt solutions at 25° to 300°C can be calculated using information on its solubility in pure water and a model in which the activity of water in the salt solution is defined to equal the effective density. p e , of "free" water in that solution. At temperatures of 100°C and above, p e closely equals the product of the density of the solution times the weight fraction of water in the solution. At 25°C, a correction parameter must be applied to p e that incorporates a term called the apparent cation hydration number, h . Because of the many assumptions and other uncertainties involved in determining values of h , by the model used here, the reported numbers are not necessarily real hydration numbers even though they do agree with some published values determined by activity and diffusion methods. Whether or not h is a real hydration number, it would appear to be useful in its inclusion within a more extensive activity coefficient term that describes the departure of silica solubilities in concentrated salt solutions from expected behavior according to the model presented here. Values of h can be calculated from measured amorphous silica solubilities in salt solutions at 25°C provided there is no complexing of dissolved silica with the dissolved salt, or if the degree of complexing is known. The previously postulated aqueous silica-sulfate complexing in aqueous Na 2 SO 4 solutions is supported by results of the present effective density of water model.

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