Comparison of two different anaerobic feeding strategies to establish a stable aerobic granulated sludge bed |
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Authors: | T Rocktäschel C Klarmann B Helmreich J Ochoa P Boisson KH Sørensen H Horn |
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Affiliation: | 1. Technische Universität München, Chair of Urban Water Systems Engineering, Am Coulombwall, 85748 Garching, Germany;2. Veolia Environment Research and Innovation, Chemin de la Digue, BP76, 78608 Maisons-Laffitte Cedex, France;3. Veolia Water – Technical Department, 1 Rue Giovanni Battista Pirelli, 94410 Saint Maurice Cedex, France;4. WABAG Wassertechnik AG, Bürglistrasse 31, 8401 Winterthur, Switzerland;5. Karlsruhe Institute of Technology, Chair of Water Chemistry and Water Technology, Engler-Bunte-Ring 1, 76131 Karlsruhe, Germany |
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Abstract: | Two different anaerobic feeding strategies were compared to optimize the development and performance of aerobic granules. A stable aerobic granulation of activated sludge was achieved with an anaerobic plug flow operation (PI) and a fast influent step followed by an anaerobic mixing phase (PII). Two lab scale sequencing batch reactors (SBRs) were operated to test the different operation modes. PI with plug flow and a reactor H/D (height/diameter) ratio of 9 achieved a biomass concentration of 20 gTSS/L and an effluent TSS concentration of 0.10 gTSS/L. PII with the mixed anaerobic phase directly after feeding and a reactor H/D ratio of 2 achieved a biomass concentration of 9 gTSS/L and an effluent quality of 0.05 gTSS/L. Furthermore, it is shown that the plug flow regime during anaerobic feeding together with the lower H/D ratio of 2 led to channeling effects, which resulted in lower storage of organic carbon and a general destabilization of the granulation process. Compared to the plug flow regime (PI), the anaerobic mixing (PII) provided lower substrate gradients within the biofilm. However, these disadvantages could be compensated by higher mass transfer coefficients in PII (kL = 0.3 m/d for PI; kL = 86 m/d for PII) during the anaerobic phase. |
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Keywords: | Aerobic granulation Plug flow Anaerobic mixing Biological phosphorus removal Nitrogen removal PAOs |
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