A model of organic chemical adsorption and partitioning onto/into fractal s
orbents is developed in terms of sorption probabilities and location of the
sorbate on the sorbent surface. Evidence is presented that the application
of a Langmuir derived model to fractal aggregates provides a consistent an
d mechanistic explanation for both adsorption and partitioning processes. P
artitioning-like processes are visualized in terms of adsorption to the inn
er sites of fractal sorbents, analogous to partitioning of solutes into hum
ic acids. The model for the sorption process exhibits nonlinear dynamics. F
irst, molecules are adsorbed at the outer sites of the aggregates in a fast
process that dominates the initial kinetics of sorption. Second, molecules
slowly diffuse inward and sorb to the inner sites of the aggregate. For th
e latter case, sorbate molecules exhibit partitioning-like processes which
make a larger contribution to overall sorption at long equilibration times.
Implications for the interpretation of partitioning and adsorption process
es are discussed.