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Measurement of streaming potential coupling coefficient in sandstones saturated with natural and artificial brines at high selenity

Jaafar, Mohd. Zaidi and Vinogradov, J. and Jackson, M. D. (2010) Measurement of streaming potential coupling coefficient in sandstones saturated with natural and artificial brines at high selenity. Journal of Geophysical Research , 115 (812204). 1 - 18. ISSN 0148-0227

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Official URL: http://dx.doi.org/10.1029/2010JB007593.

Abstract

We report experimental measurements of the streaming potential coupling coefficient in sandstones saturated with NaCl-dominated artificial and natural brines up to 5.5 M (321.4 g L−1 of NaCl; electrical conductivity of 23 S m−1). We find that the magnitude of the coupling coefficient decreases with increasing brine salinity, as observed in previous experimental studies and predicted by models of the electrical double layer. However, the magnitude of the coupling coefficient remains greater than zero up to the saturated brine salinity. The magnitude of the zeta potential we interpret from our measurements also decreases with increasing brine salinity in the low-salinity domain (<0.4 M; 23.4 g L−1 of NaCl and 3.4 S m−1) but reaches a constant value at higher salinity (>0.4 M). We hypothesize that the constant value of zeta potential observed at high salinity reflects the maximum packing of counterions in the diffuse part of the electrical double layer. Our hypothesis predicts that the zeta potential becomes independent of brine salinity when the diffuse layer thickness is similar to the diameter of the hydrated counterion. This prediction is confirmed by our experimental data and also by published measurements on alumina in KCl brine. At high salinity (>0.4 M), values of the streaming potential coupling coefficient and the corresponding zeta potential are the same within experimental error regardless of sample mineralogy and texture and the composition of the brine.

Item Type:Article
Uncontrolled Keywords:electrokinetics, zeta potential, high ionic strength
Subjects:T Technology > T Technology (General)
Divisions:Petroleum and Renewable Energy Engineering
ID Code:26293
Deposited By: Liza Porijo
Deposited On:29 Jun 2012 03:49
Last Modified:20 Aug 2014 00:46

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