Sorption of ~(226)Ra from oil effluents onto synthetic cation exchangers

摘要

Increasing environmental awareness is being urged for the safe disposal of Ra-contaminated production water generated in the oil industry. Birnessite, antimony silicate and their cationic derivatives were studied for the take-up of ~(226)Ra using the batch-type method under experimentally determined parameters, viz. contact time, solution-solid ratio and ~(226)Ra concentration. Data was expressed in terms of distribution coefficients. Sorption experiments were performed in different concentrations of nitric acid in order to speculate the mechanism of ~(226)Ra uptake. Variation in the magnitude of sorption efficiency of the materials in the presence of the major components of waste streams, i.e. Na~+, K~+ and Ca~(2+), revealed that K~+ was the greatest competitor and Na~+ the least. The application of the materials to sorb ~(226)Ra from actual oil co-production water samples, collected from Der Ezzor and Al Fourat petroleum companies (DEZPC and AFPC), was interpreted in terms of the exchange properties of the materials and water characterisation. Of the parameters studied, the selectivity of materials was shown to be greatly dependent on the pH of wastewater to be treated.