Congener Level PCB Desorption Kinetics of Field-Contaminated Sediments

Abstract

The purpose of this research was to study congener level PCB desorption kinetics of field-contaminated sediments and develop a simple methodology to analyze the desorption behavior. Batch desorption kinetic studies were conducted using XAD-4 resin. Two-phase desorption kinetics were observed for most PCB congeners, consisting of an initial fast rate followed by an extended period of slow rate. A dual first-order rate model was fitted to the PCB desorption data to estimate PCB concentrations in the fast and slow desorbing pools. The fast and slow desorption rates were found to decrease with increasing chlorina-tion of PCB congeners, decreasing ortho chlorination, and decreasing temperature. Estimated first-order desorption rate constants for the fast pools were found to be two orders of magnitude higher than those for the corresponding slow pools. The log of first-order rate constants for the different PCB congeners were found to be linearly related to the log of octanol-water partition coefficients. Therefore, desorption rate constants of higher chlorinated PCB congeners, which typically require long-term desorption tests, could be extrapolated using measured rate constants of lower-chlorinated PCB congeners from short-term desorption tests. This finding may provide a process to significantly reduce the duration of experiments required for estimating desorption kinetics.