Adsorption and partition of benzo(a)pyrene on sediments with different particle sizes from the Yellow River

Experiments have been carried out to study the sorption of Benzo(a)pyrene(Bap) on sediment particles from the Yellow River using a batch equilibration technique. Effects of particle size on the adsorption and partition of Bap were investigated with the particle content of 3 g/L. Several significant results were obtained from the study. (1) Isotherms of Bap could be fitted with the dual adsorption-partition model under different particle sizes, and the measured value of the adsorption and partition was in agreement with the theoretical value of the dual adsorption-partition model. (2) When the particle diameter was d ≥ 0.025 mm, the adsorption was predominant in the sorption of Bap, which accounted for 68.7%-82.4% of the sorption. For the particles with the size of 0.007 mm≤d<0.025 mm, the adsorption was predominant when the equilibrium concentration of Bap was 0-8.87 μg/L in the water phase; and the partition was predominant when the equilibrium concentration of Bap was higher than 8.87 μg/L in the water phase. When the particle diameter was d<0.007 mm, the partition was predominant. (3) On the point of particle size, the contribution of adsorption to sorption followed the order: "d≥0.025 mm">"0.007 mm ≤d<0.025 mm" >"d<0.007 mm". (4) The partition coefficients of Bap in solids with different particle sizes were linearly correlated with the organic content, and the K oc of Bap was about 1.26 × 105 (L/kg). © Higher Education Press 2007.