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1.
Electron. j. biotechnol ; 15(1): 3-3, Jan. 2012. ilus, tab
Article Dans Anglais | LILACS | ID: lil-640529

Résumé

The biodegradation kinetics of o-cresol was examined by acclimatized P. putida DSM 548 (pJP4) in batch experiments at varying initial o-cresol concentrations (from 50 to 500 mg/L). The kinetic parameters of o-cresol aerobic biodegradation were estimated by using the Haldane substrate inhibition equation. The biodegradation kinetics of o-cresol was investigated. In batch culture reactors, the Maximum specific growth rate (μmax), Monod constant (Ks) and the inhibition constant (Ki) were established as 0.519 h-1, 223.84 mg/L and 130.883 mg/L, respectively. o-cresol biodegradation in a batch-recirculation bioreactor system by immobilized P. putida was also studied. The recycled packed bed reactor system, which was composed of Ca-alginate beads and pumice on which cells immobilized, has been performed to determine possible stability for further developments.


Sujets)
Dépollution biologique de l'environnement , Crésols/métabolisme , Pseudomonas putida/composition chimique , Bioréacteurs , Cellules immobilisées , Phénols/métabolisme , Cinétique
2.
Electron. j. biotechnol ; 14(2): 3-3, Mar. 2011. ilus, tab
Article Dans Anglais | LILACS | ID: lil-591933

Résumé

In this study, lyophilized Trametes versicolor biomass is used as a sorbent for biosorption of a textile dye, Sirius Blue K-CFN, from an aqueous solution. The batch sorption was studied with respect to dye concentration, adsorbent dose and equilibrium time. The effect of pH and temperature on dye uptake was also investigated and kinetic parameters were determined. Optimal initial pH (3.0), equilibrium time (2 hrs), initial dye concentration ( 100 mg l-1) and biomass concentration (1.2 mg l-1) were determined at 26ºC. The maximum biosorption capacity (q max) of Sirius Blue K-CFN dye on lyophilized T. versicolor biomass is 62.62 mg/g. The kinetic and isotherm studies indicated that the biosorption process obeys to a pseudo-second order model and Langmuir isotherm model. In addition, the biosorption capacities of fungal biomass compared to other well known adsorbents such as activated carbon and Amberlite, fungal biomass biosorptions capacities were found to be more efficient.


Sujets)
Trametes/composition chimique , Biomasse , Basidiomycota/composition chimique , Agents colorants , Composés azoïques/composition chimique , Lyophilisation , Concentration en ions d'hydrogène , Isotherme , Cinétique , Température
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