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Microbial dynamics in a continuously stirred tank reactor with 100% cell recycle

Okaygun, Mehmet S. / Akgerman, Aydin

ABSTRACT:  Effects of continuous cultivation on the dynamics of heterogenous populations were investigated by employing a continuously stirred tank reactor (CSTR) with 100% cell recycle to minimize biomass waste and any shifts in microbial populations. Phenol was used as model substrate and as the sole carbon source. Activated sludge bacteria, acclimated to phenol, were grown in a CSTR with 100% cell recycle operated at the same dilution rate but with different influent phenol concentrations. During the steady state, the kinetic parameters for the Haldane model (µ_m, K_s, and K₁) characterizing growth on phenol were determined by a long‐term batch experiment. The dominant microbial species at each steady state were analyzed by biochemical assays. There was a shift in microbial species at different influent phenol concentrations with a corresponding change in µ_m values whereas the values of K_s and K₁ were not influenced. Even though the changes in microbial populations and kinetic parameters were attributed to changes in the influent phenol concentration, there was no direct correlation between them.

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Microbial dynamics in a continuously stirred tank reactor with 100% cell recycle

Okaygun, Mehmet S. / Akgerman, Aydin

ABSTRACT:  Effects of continuous cultivation on the dynamics of heterogenous populations were investigated by employing a continuously stirred tank reactor (CSTR) with 100% cell recycle to minimize biomass waste and any shifts in microbial populations. Phenol was used as model substrate and as the sole carbon source. Activated sludge bacteria, acclimated to phenol, were grown in a CSTR with 100% cell recycle operated at the same dilution rate but with different influent phenol concentrations. During the steady state, the kinetic parameters for the Haldane model (µ_m, K_s, and K₁) characterizing growth on phenol were determined by a long‐term batch experiment. The dominant microbial species at each steady state were analyzed by biochemical assays. There was a shift in microbial species at different influent phenol concentrations with a corresponding change in µ_m values whereas the values of K_s and K₁ were not influenced. Even though the changes in microbial populations and kinetic parameters were attributed to changes in the influent phenol concentration, there was no direct correlation between them.

Microbial dynamics in a continuously stirred tank reactor with 100% cell recycle

Okaygun, Mehmet S. / Akgerman, Aydin

ABSTRACT:  Effects of continuous cultivation on the dynamics of heterogenous populations were investigated by employing a continuously stirred tank reactor (CSTR) with 100% cell recycle to minimize biomass waste and any shifts in microbial populations. Phenol was used as model substrate and as the sole carbon source. Activated sludge bacteria, acclimated to phenol, were grown in a CSTR with 100% cell recycle operated at the same dilution rate but with different influent phenol concentrations. During the steady state, the kinetic parameters for the Haldane model (µ_m, K_s, and K₁) characterizing growth on phenol were determined by a long‐term batch experiment. The dominant microbial species at each steady state were analyzed by biochemical assays. There was a shift in microbial species at different influent phenol concentrations with a corresponding change in µ_m values whereas the values of K_s and K₁ were not influenced. Even though the changes in microbial populations and kinetic parameters were attributed to changes in the influent phenol concentration, there was no direct correlation between them.

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Title:

Microbial dynamics in a continuously stirred tank reactor with 100% cell recycle

Contributors:

Okaygun, Mehmet S. (author) / Akgerman, Aydin (author)

Published in:

Water Environment Research ; 64 ; 811-816

Publication date:

1992-09-01

Size:

6 pages

ISSN:

1554-7531 , 1061-4303

DOI:

https://doi.org/10.2175/WER.64.6.9

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

biodegradation , growth , phenol , kinetics , continuous culture

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