This study proposes a two-stage biodegradation process linked by a bio
-transformation process as a mechanism involved in the biodegradation
of complex industrial wastewaters; and developed a mechanistic oxygen
uptake model based on the proposed mechanism; The reliability of the n
ew mechanistic model was eveluated using various representative organi
c mixtures including glucose/glutamic acid solutions, three types of w
astewaters, ozone treated secondary effluents, and various fragments d
erived from these effluents. The results revealed that (1) through pro
per calibration, the new mechanistic model can satisfactorily predict
the oxygen uptake by various complex wastewaters over the long term; (
2) the new model can be used reliably to assess and effectively to com
pare the biodegradability of complex wastewaters; (3) the new model, c
onsidering both stoichiometry and kinetics of biochemical reactions, i
s also simple but sensitive, and is a practical measure for evaluating
the mechanistic-kinetic constants involved in the biodegradation proc
esses. The reliability of the new model has also been verified by usin
g the data from another independent study. The results from this study
also suggested that the new model provides a uniform means of assessi
ng the alteration of biodegradability induced by various physical and
chemical treatment processes.