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  • (-) Eawag Departments = Environmental Chemistry UCHEM
  • (-) Publication Year = 2006 - 2018
  • (-) Eawag Authors ≠ Götz, Christian W.
  • (-) Eawag Departments = Eawag/EPFL Ecotox Centre
  • (-) Keywords ≠ kinetics
  • (-) Eawag Authors ≠ Junghans, Marion
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Effect of operational and water quality parameters on conventional ozonation and the advanced oxidation process O<SUB>3</SUB>/H<SUB>2</SUB>O<SUB>2</SUB>: kinetics of micropollutant abatement, transformation product and bromate formation in a surface water
Bourgin, M., Borowska, E., Helbing, J., Hollender, J., Kaiser, H. P., Kienle, C., … von Gunten, U. (2017). Effect of operational and water quality parameters on conventional ozonation and the advanced oxidation process O3/H2O2: kinetics of micropollutant abatement, transformation product and bromate formation in a surface water. Water Research, 122, 234-245. https://doi.org/10.1016/j.watres.2017.05.018
Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources
Brack, W., Dulio, V., Ågerstrand, M., Allan, I., Altenburger, R., Brinkmann, M., … Vrana, B. (2017). Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources. Science of the Total Environment, 576, 720-737. https://doi.org/10.1016/j.scitotenv.2016.10.104
Biologische Nachbehandlung von kommunalem Abwasser nach Ozonung – ReTREAT. Schlussbericht
Böhler, M., Fleiner, J., Siegrist, H., McArdell, C. S., Teichler, R., Bourgin, M., … Blunschi, M. (2017). Biologische Nachbehandlung von kommunalem Abwasser nach Ozonung – ReTREAT. Schlussbericht. Eawag.
Projekt ReTREAT. Untersuchungen zu Verfahren für die biologische Nachbehandlung nach Ozonung
Böhler, M., Fleiner, J., McArdell, C. S., Teichler, R., Siegrist, H., Kienle, C., … Wunderlin, P. (2017). Projekt ReTREAT. Untersuchungen zu Verfahren für die biologische Nachbehandlung nach Ozonung. Aqua & Gas, 97(5), 54-63.
Passive sampling: an efficient way to monitor micropollutants in sewer overflows?
Mutzner, L., Mangold, S., Maurer, M., Scheidegger, A., Singer, H., Vermeirssen, E., & Ort, C. (2017). Passive sampling: an efficient way to monitor micropollutants in sewer overflows? (pp. 10-17). Presented at the 14th IWA/IAHR international conference on urban drainage (ICUD). CZWA; Czech Technical University; IAHR/AIRH; IWA.
Integrating chemical analysis and bioanalysis to evaluate the contribution of wastewater effluent on the micropollutant burden in small streams
Neale, P. A., Munz, N. A., Aїt-Aїssa, S., Altenburger, R., Brion, F., Busch, W., … Hollender, J. (2017). Integrating chemical analysis and bioanalysis to evaluate the contribution of wastewater effluent on the micropollutant burden in small streams. Science of the Total Environment, 576, 785-795. https://doi.org/10.1016/j.scitotenv.2016.10.141
Grenzwerte für Transformationsprodukte. Herleitung von ökotoxikologisch basierten Grenzwerten für TP von Pharmazeutika: eine Fallstudie
Riegraf, C., Fenner, K., Werner, I., & Kase, R. (2017). Grenzwerte für Transformationsprodukte. Herleitung von ökotoxikologisch basierten Grenzwerten für TP von Pharmazeutika: eine Fallstudie. Aqua & Gas, 97(2), 46-56.
Einfluss von Mikroverunreinigungen
Stamm, C., Burdon, F., Fischer, S., Kienle, C., Munz, N., Tlili, A., … Eggen, R. (2017). Einfluss von Mikroverunreinigungen. Aqua & Gas, 97(6), 90-95.
Micropollutant-induced tolerance of <I>in situ</I> periphyton: establishing causality in wastewater-impacted streams
Tlili, A., Hollender, J., Kienle, C., & Behra, R. (2017). Micropollutant-induced tolerance of in situ periphyton: establishing causality in wastewater-impacted streams. Water Research, 111, 185-194. https://doi.org/10.1016/j.watres.2017.01.016
Biologische Nachbehandlung von kommunalem Abwasser nach Ozonung - ReTREAT
Böhler, M., Fleiner, J., McArdell, C. S., Kienle, C., Schachtler, M., & Siegrist, H. (2016). Biologische Nachbehandlung von kommunalem Abwasser nach Ozonung - ReTREAT. In J. Pinnekamp & V. Kölling (Eds.), Gewässerschutz, Wasser, Abwasser: Vol. 239. 49. Essener Tagung für Wasser und Abfallwirtschaft. "Wasserwirtschaft 4.0" (p. (13 pp.). RWTH Aachen, Institut für Siedlungswasserwirtschaft.
Ökotoxikologische Bewertung von Arzneimittel- Transformationsprodukten
Kase, R., & Fenner, K. (2016). Ökotoxikologische Bewertung von Arzneimittel- Transformationsprodukten. Oekotoxzentrum News, 8.
Decision basis for implementation of oxidation technologies
McArdell, C. S., Bourgin, M., von Gunten, U., Hollender, J., Kienle, C., & Hofman-Caris, R. (2015). Decision basis for implementation of oxidation technologies. DEMEAU.
Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers
Moschet, C., Vermeirssen, E. L. M., Singer, H., Stamm, C., & Hollender, J. (2015). Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers. Water Research, 71, 306-317. https://doi.org/10.1016/j.watres.2014.12.043
Picogram per liter detections of pyrethroids and organophosphates in surface waters using passive sampling
Moschet, C., Vermeirssen, E. L. M., Seiz, R., Pfefferli, H., & Hollender, J. (2014). Picogram per liter detections of pyrethroids and organophosphates in surface waters using passive sampling. Water Research, 66, 411-422. https://doi.org/10.1016/j.watres.2014.08.032
Uptake and release kinetics of 22 polar organic chemicals in the Chemcatcher passive sampler
Vermeirssen, E. L. M., Dietschweiler, C., Escher, B. I., van der Voet, J., & Hollender, J. (2013). Uptake and release kinetics of 22 polar organic chemicals in the Chemcatcher passive sampler. Analytical and Bioanalytical Chemistry, 405(15), 5225-5236. https://doi.org/10.1007/s00216-013-6878-1
Mikroschadstoffe aus kommunalem Abwasser. Stoffflussmodellierung, Situationsanalyse und Reduktionspotenziale für Nordrhein-Westfalen
Götz, C., Kase, R., Ort, C., Singer, H., & Bergmann, S. (2012). Mikroschadstoffe aus kommunalem Abwasser. Stoffflussmodellierung, Situationsanalyse und Reduktionspotenziale für Nordrhein-Westfalen. sine nomine.
Advantages of passive sampling
Vermeirssen, E., Hollender, J., & Zennegg, M. (2012). Advantages of passive sampling. Eawag News [engl. ed.], 73, 18-22.
Passiv Proben nehmen
Vermeirssen, E., Hollender, J., & Zennegg, M. (2012). Passiv Proben nehmen. Eawag News [dtsch. Ausg.], 73, 18-22.
Transfer kinetics of polar organic compounds over polyethersulfone membranes in the passive samplers POCIS and Chemcatcher
Vermeirssen, E. L. M., Dietschweiler, C., Escher, B. I., van der Voet, J., & Hollender, J. (2012). Transfer kinetics of polar organic compounds over polyethersulfone membranes in the passive samplers POCIS and Chemcatcher. Environmental Science and Technology, 46(12), 6759-6766. https://doi.org/10.1021/es3007854
Input and elimination of pharmaceuticals and disinfectants from hospital wastewater
McArdell, C. S., Kovalova, L., Siegrist, H., Kienle, C., Moser, R., & Schwartz, T. (2011). Input and elimination of pharmaceuticals and disinfectants from hospital wastewater. Eawag.