Calorimetric investigations of phenol degradation by Pseudomonas putida

## Abstract Pure cultures of __Pseudomonas putida__ (ATCC 17484) were grown in continuous culture on phenol at dilution rates of 0.074–0.085 h^−1^ and subjected to step increases in phenol feed concentration. Three distinct patterns of dynamic response were obtained depending on the size of the ste

## Abstract In order to characterize the ability of __Pseudomonas putida__ (Trevisan 1889) Migula 1895 strain H to degrade various mono‐ and diphenolic aromatic compounds, respiratory activities towards phenol, catechol, and the cresol isomers were determined. The following rates of oxygen uptake (

A semiempirical model, based on the presence of an inhibitory intermediate metabolite excreted to the broth, was developed to better predict the dynamic responses to shock loadings of Pseudomonas putida Q5 degrading phenol. Compared to the Haldane equation, the new model exhibited better prediction

The influence of different process kinetics on the course of phenol degradation has been studied as well as the influence of axial dispersion in the liquid phase on the reactor height with relatively large biofilm thickness in a conventional fluidized bed and air-lift bioreactor. The object of this