Ainhoa Caro scite author profile

As several authors have reported previously, the Biodesulfurization of hydrodesulfurization recalcitrants, such as dibenzothiophene, is not yet commercially viable because mass transfer limitations and feedback inhibition effects are produced during the conversion. This work has been focused to investigate the inhibition process in aqueous and oil-water systems with two different aerobic biocatalysts types, Rhodococcus erythropolis IGTS8 and Pseudomonas putida CECT 5279. The results obtained have proven that global DBT desulfurization process using CECT 5279 was not clearly deactivated due to final product accumulation, under the experimental conditions assayed. Consistently, the desulfurization pattern has been described with the Michaelis-Menten equation, determining the kinetic parameters. On other hand, the assays have shown that important mass transfer limitations produced the decrease of the yields obtained with this Gram(-) strain in biphasic media. With strain IGTS8 it was observed lower mass transfer problems, but contrary the reaction was severely affected by the final product accumulation, in both aqueous and biphasic systems. Therefore it has been proposed an enzymatic kinetic model with competitive inhibition to describe the BDS evolution pattern when this Gram(+) strain was used.

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Gas–liquid mass transfer in oil–water emulsions with an airlift bio-reactor

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Caro

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et al. 2008

Chemical Engineering and Processing: Process Intensification

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Biodesulfurization of dibenzothiophene by growing cells of Pseudomonas putida CECT 5279 in biphasic media

et al. 2008

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Ainhoa Caro

Dibenzothiophene biodesulfurization in resting cell conditions by aerobic bacteria

Enhancement of dibenzothiophene biodesulfurization using β-cyclodextrins in oil-to-water media

Description of by-product inhibiton effects on biodesulfurization of dibenzothiophene in biphasic media

Gas–liquid mass transfer in oil–water emulsions with an airlift bio-reactor

Biodesulfurization of dibenzothiophene by growing cells of Pseudomonas putida CECT 5279 in biphasic media

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