Urivald Pawlowsky scite author profile

Urivald Pawlowsky

5Publications

90Citation Statements Received

1Citation Statement Given

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Affiliations

Federal University of Paraná, University at Buffalo, State University of New York, Pan American Health Organization (Brasil)

Publications

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Mixed culture biooxidation of phenol. I. Determination of kinetic parameters

Pawlowsky

Howell

1973

Biotech & Bioengineering

142

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SummaryA mixed culture derived from soil and activated sludge organisms was used to degrade phenol which was inhibitory to microorganisms at higher concentrations. The purpose of the experiments was to determine the kinetic parameters governing growth of the organisms by measuring growth rates in batch culture. To maintain a constant inoculum for the experiments inoculum was taken from a continuously operating continuous culture. Two populations were studied corresponding to two separate residence times in the continuous culture apparatus. One contained predominantly filamentous organisms, the other nonfilamentous. Five kinetic models were applied to the data and the best kinetic parameters for each model were determined by nonlinear least squares techniques. The models were then evaluated for best relative fit to the data. No significant differences were found between the models on the basis of fit and so a choice was made on the grounds of simplicity. A model proposed by Haldane was chosen as the best. No function however gave a satisfactory fit at the highest growth rates obtained. This experimental maximum in the plot of growth rate against substrate concentration was very sharp.

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Environmental performance evaluation – A proposed analytical tool for an industrial process application

Maceno

Pawlowsky

Machado

et al. 2018

Journal of Cleaner Production

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Effect of wall growth on scale‐up problems and dynamic operating characteristics of the biological reactor

Howell

Pawlowsky

1972

Biotech & Bioengineering

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SummaryIf inhibitory substrates are being utilized in a well-stirred biological reactor, microbiological growth on the walls of the reactor can create a scale-up problem. A simple model is proposed which shows that without such growth, of the three existing steady states only one is stable and nontrivial, but with wall growth the trivial, stable, steady state (washout) is impossible. In addition, wall growth reduces the region over which three steady states are feasible and reduces the minimum residence time for which there is only one steady state that corresponds to a high conversion. Thus, a laboratory process wi€h a high surface area to volume ratio can give an over optimistic prediction of both necessary residence time and stability of the full scale process unless wall growth is accounted for.

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Incorporation of industrial wastes as raw materials in brick's formulation

Wiemes

Pawlowsky

Mymrin

2017

Journal of Cleaner Production

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Mixed culture biooxidation of phenol. III. Existence of multiple steady states in continuous culture with wall growth

Pawlowsky

Howell

1973

Biotech & Bioengineering

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SummaryIt is shown that two steady states exist in certain regions of operation of a 2-liter continuous stirred tank biological reactor. Transition was made from one steady state to another by applying shock loads of either phenol substrate which is inhibitory to the culture at high concentrations or by adding large additional amounts of concentrated organisms. The existence of the multiple steady states is ascribed to the existence of wall growth, and their position is determined by the amount of wall growth. Transient behavior of the system did not follow the predictions of the simple wall growth model but the culture appeared to undergo a lag period immediately after applying the shock load to the system. It is concluded that the stability of a continuous culture utilizing an inhibitory substrate is improved by increasing the degree of wall growth and decreasing the substrate feed concentration. It is also concluded that small scale experiments can usually not be interpreted correctly unless the effect of wall growth is taken into account.

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