Impact of Salinity on the Air–Water Partition Coefficient of Gas Tracers

Abstract

The use of a gas partitioning interwell tracer test (PITT) has been proposed as a standard approach to the measurement of field-scale vadose zone water saturation fractions. The accuracy of the saturation measurement is largely dependent on the determination of the air–water partition coefficient, K , of the tracers. In practice, K is strongly influenced by the physical and chemical properties of the site water. In this study, column tests were conducted to investigate the impact of salinity on tracer partition coefficients for two promising gas phase candidate tracers, dibromomethane and dimethylether. Sodium thiosulfate was used as a salinity surrogate. The dynamic K values of the two partitioning tracers were measured for sodium thiosulfate concentrations between 0% and 36% by weight. Methane was used as the nonpartitioning tracer for all experiments. K values were found to decrease significantly with increasing sodium thiosulfate concentration. Similar correlations between K values and sodium thiosulf...