Pretreatment of Highly Polluted Pharmaceutical Waste Broth by Wet Air Oxidation |
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Authors: | Andreja ?gajnar Gotvajn Jana Zagorc-Kon?an Tatjana Ti?ler |
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Affiliation: | 1Assistant Professor, Faculty of Chemistry and Chemical Technology, Chair of Chemical, Biochemical and Environmental Engineering, Univ. of Ljubljana A?ker?eva 5, SI-1000, Ljubljana, Slovenia. E-mail: andreja.zgajnar@ki.si 2Associate Professor, Faculty of Chemistry and Chemical Technology, Chair of Chemical, Biochemical and Environmental Engineering, Univ. of Ljubljana A?ker?eva 5, SI-1000, Ljubljana, Slovenia. E-mail: jana.zagorc@ki.si 3Senior Researcher, National Institute of Chemistry, Hajdrihova 19, SI-1000, Ljubljana, Slovenia. E-mail: tatjana.tisler@ki.si.
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Abstract: | The preoxidation of a highly polluted waste pharmaceutical fermentation broth using wet air oxidation (WAO) has been studied as a possible method for the effective removal of organics. The applied (pre)treatment method should enhance the biotreatability of the pharmaceutical fermentation broth in terms of reduced initial toxicity and higher biodegradability. Preliminary experiments in the pilot biological treatment plant were successful only at low organic loads, whereas the system collapses at higher ones. The characterization of the fermentation broth was started by common physicochemical analysis, whereas several bioassays were used to determine its impact on biological treatment plants and the environment. Toxicity prior to and after WAO was determined using the acute Vibrio fischeri test, measurement of inhibition of O2 consumption, and the Daphnia magna acute test. Ready biodegradability of the treated and untreated broth has also been assessed. WAO experiments were accomplished in the 2?L batch reactor at different temperatures (240/280°C) and operating pressures. WAO experiments confirmed reduction of the toxicity toward microorganisms, whereas oxidized wastewater was more toxic to daphnids. Biodegradability of the oxidized broth has also been enhanced. Further work has been focused on designing appropriate combination of WAO and biological processes. |
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Keywords: | Biodegradation Kinetics Oxidation Toxicity Wastewater management |
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