Degradation of xenobiotics in a partitioning bioreactor in which the partitioning phase is a polymer

## Abstract The current article examined the feasibility of inducing improved delivery and degradation of phenanthrene in a solid–liquid partitioning bioreactor system at bench scale by means of ultrasonic energy input. Initial degradation rates of phenanthrene by a microbial consortium, delivered

## Abstract The biotransformation of toluene to 3‐methycatechol (3MC) via __Pseudomonas putida__ MC2 was used as a model system for the development of a biphasic process offering enhanced overall volumetric productivity. Three factors were investigated for the identification of an appropriate organ

## Abstract The microbial biotransformation of (−)‐__trans__‐carveol to the flavor and fragrance compound (__R__)‐(−)‐carvone by __Rhodococcus erythropolis__ DCL14 was carried out in a 3 L two phase partitioning bioreactor with an immiscible liquid second phase in an effort to improve upon the reac

## Abstract A comparative study of the performance of solid and liquid non‐aqueous phases (NAPs) to enhance the mass transfer and biodegradation of hexane by __Pseudomonas aeruginosa__ in two‐phase partitioning bioreactors (TPPBs) was undertaken. A preliminary NAP screening was thus carried out amo

## Abstract The current study examined the effects of ultrasonic irradiation on mass transfer and degradation of PAHs, by an enriched consortium, when delivered from polymeric matrices. Rates of release into methanol under sonicated conditions, relative to unmixed cases, for phenanthrene, fluoranth