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Modelling hydrolysis: simultaneous versus sequential biodegradation of the hydrolysable fractions
Jimenez, J., Charnier, C., Kouas, M., Latrille, E., Torrijos, M., Harmand, J., … Steyer, J. P. (2020). Modelling hydrolysis: simultaneous versus sequential biodegradation of the hydrolysable fractions. Waste Management, 101, 150-160. https://doi.org/10.1016/j.wasman.2019.10.004
Transport and retention of artificial and real wastewater particles inside a bed of settled aerobic granular sludge assessed applying magnetic resonance imaging
Ranzinger, F., Matern, M., Layer, M., Guthausen, G., Wagner, M., Derlon, N., & Horn, H. (2020). Transport and retention of artificial and real wastewater particles inside a bed of settled aerobic granular sludge assessed applying magnetic resonance imaging. Water Research X, 7, 100050 (9 pp.). https://doi.org/10.1016/j.wroa.2020.100050
The IWA Anaerobic Digestion Model No 1 (ADM1)
Batstone, D. J., Keller, J., Angelidaki, I., Kalyuzhnyi, S. V., Pavlostathis, S. G., Rozzi, A., … Vavilin, V. (2002). The IWA Anaerobic Digestion Model No 1 (ADM1). Water Science and Technology, 45(10), 65-73. https://doi.org/10.2166/wst.2002.0292
Determination of Cr(III) and Cr(VI) species in natural waters by catalytic cathodic stripping voltammetry
Li, Y., & Xue, H. (2001). Determination of Cr(III) and Cr(VI) species in natural waters by catalytic cathodic stripping voltammetry. Analytica Chimica Acta, 448(1-2), 121-134. https://doi.org/10.1016/S0003-2670(01)01314-9
Modelling denitrification in a moving bed of porous carriers from a low-loaded wastewater treatment plant
Maurer, M., Fux, C., Lange, D., & Siegrist, H. (1999). Modelling denitrification in a moving bed of porous carriers from a low-loaded wastewater treatment plant. Water Science and Technology, 39(7), 251-259. https://doi.org/10.1016/S0273-1223(99)00175-4
Reduction of biomass decay rate under anoxic and anaerobic conditions
Siegrist, H., Brunner, I., Koch, G., Phan, L. C., & Le, V. C. (1999). Reduction of biomass decay rate under anoxic and anaerobic conditions. Water Science and Technology, 39(1), 129-137. https://doi.org/10.1016/S0273-1223(98)00782-3
Denitrification in secondary clarifiers
Siegrist, H., Krebs, P., Bühler, R., Purtschert, I., Röck, C., & Rufer, R. (1995). Denitrification in secondary clarifiers. Water Science and Technology, 31(2), 205-214. https://doi.org/10.1016/0273-1223(95)00193-Q
Interpretation of experimental data with regard to the activated sludge model no. 1 and calibration of the model for municipal wastewater treatment plants
Siegrist, H., & Tschui, M. (1992). Interpretation of experimental data with regard to the activated sludge model no. 1 and calibration of the model for municipal wastewater treatment plants. Water Science and Technology, 25(6), 167-183. https://doi.org/10.2166/wst.1992.0121
Activated sludge modelling and simulation
Gujer, W., & Henze, M. (1991). Activated sludge modelling and simulation. Water Science and Technology, 23(4-6), 1011-1023. https://doi.org/10.2166/wst.1991.0553
Aerobic thermophilic sludge treatment. Some biotechnological concepts
Hamer, G., & Bryers, J. D. (1985). Aerobic thermophilic sludge treatment. Some biotechnological concepts. Conservation and Recycling, 8, 267-284. https://doi.org/10.1016/0361-3658(85)90041-4
Kinetic studies on the hydrolysis of sodium tripolyphosphate in sterile solution
Zinder, B., Hertz, J., & Oswald, H. R. (1984). Kinetic studies on the hydrolysis of sodium tripolyphosphate in sterile solution. Water Research, 18, 509-512. https://doi.org/10.1016/0043-1354(84)90196-9
Conversion processes in anaerobic digestion
Gujer, W., & Zehnder, A. J. B. (1983). Conversion processes in anaerobic digestion. Water Science and Technology, 15(8-9), 127-167. https://doi.org/10.2166/wst.1983.0164