@ARTICLE{Gnida_Anna_The_2016, author={Gnida, Anna and Sikora, Jan and Wiszniowski, Jarosław and Felis, Ewa and Surmacz-Górska, Joanna and Miksch, Korneliusz}, volume={vol. 42}, number={No 1}, journal={Archives of Environmental Protection}, howpublished={online}, year={2016}, publisher={Polish Academy of Sciences}, abstract={The paper deals with the problem of the determination of the effects of temperature on the efficiency of the nitrification process of industrial wastewater, as well as its toxicity to the test organisms. The study on nitrification efficiency was performed using wastewater from one of Polish chemical factories. The chemical factory produces nitrogen fertilizers and various chemicals. The investigated wastewater was taken from the influent to the industrial mechanical-biological wastewater treatment plant (WWTP). The WWTP guaranteed high removal efficiency of organic compounds defined as chemical oxygen demand (COD) but periodical failure of nitrification performance was noted in last years of the WWTP operation. The research aim was to establish the cause of recurring failures of nitrification process in the above mentioned WWTP. The tested wastewater was not acutely toxic to activated sludge microorganisms. However, the wastewater was genotoxic to activated sludge microorganisms and the genotoxicity was greater in winter than in spring time. Analysis of almost 3 years’ period of the WWTP operation data and laboratory batch tests showed that activated sludge from the WWTP under study is very sensitive to temperature changes and the nitrification efficiency collapses rapidly under 16°C. Additionally, it was calculated that in order to provide the stable nitrification, in winter period the sludge age (SRT) in the WWTP should be higher than 35 days.}, type={Artykuły / Articles}, title={The effect of temperature on the efficiency of industrial wastewater nitrification and its (geno)toxicity}, URL={http://ochroma.man.poznan.pl/Content/86127/PDF/aep-2016-0003.pdf}, doi={10.1515/aep-2016-0003}, keywords={nitrification failure, activated sludge, industrial wastewater, high ammonium concentrations, (geno) toxicity}, }