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Biological phosphorus removal

Modified ASM2d model including pH effect on enhanced biological phosphorus removal... [Pg.401]

Xie B, Wang L, Liu H (2008) Using low intensity ultrasound to improve the efficiency of biological phosphorus removal. Ultrason Sonochem 15 775-781... [Pg.66]

The results in Figure 6.9 show that the production rate of readily biodegradable substrate (Ss) by the anaerobic hydrolysis is larger than the removal rate. It is a major result that readily biodegradable substrate is not just preserved but produced. This fact has positive implications on the subsequent treatment processes in terms of denitrification and biological phosphorus removal. On the other hand, it is negative if wastewater treatment is only required in terms of BOD removal. [Pg.160]

Biological phosphorus removal, as advanced wastewater treatment, 25 907... [Pg.102]

According to the German Association for the Water Environment, ATV (Teichgraber B., 1998 and Teichgraber et al. 2001) to calculate tP from the whole cycle to biological phosphorus removal phase tBio-p should be taking away. [Pg.276]

Goronszy, M.C., Rigel, D. Simplified biological phosphorus removal in a fed-batch reactor without anoxic mixing sequences. J. W P C F 63 (3), 1991, 248-258. [Pg.284]

Rhodocyclus sp. (Rhodocyclus-like /3-Proteobacteria enriched in activating sludge carrying out enhanced biological phosphorus removal [23]) [23]... [Pg.645]

McMahon, K.D. Dojka, M.A. Pace, N.R. Jenkins, D. Keasling, J.D. Polyphosphate kinase from activated sludge performing enhanced biological phosphorus removal. Appl. Environ. Microbiol., 68, 4971-4978 (2002)... [Pg.655]

L. L. Blackall, G. R. Crocetti, A. M. Saunders and P. L. Bond (2002). A review and update of the microbiology of enhanced biological phosphorus removal in wastewater treatment plants. Antonie Van Leeuwenhoek, 81, 681-691. [Pg.215]

D. Brdjanovic, M. C. M. van Loosdrecht, C. M. Hooijmans, T. Mino, G. J. Alaerts and J. J. Heijnen (1999). Innovative methods for sludge characterization in biological phosphorus removal systems. Water Sci. Technol., 39, 37 43. [Pg.216]

C. O. Jeon, D. S. Lee and J. M. Park (2003). Rhodocyclus and Proteobacteria microbial communities in activated sludge performing enhanced biological phosphorus removal in a sequencing batch reactor. Water Res., 37, 2195-21205. [Pg.230]

W. T. Liu, A. T. Nielsen, J. H. Wu, C. S. Tsai, Y. Matsuo and S. Molin (2001). In situ identification of polyphosphate- and polyhydroxyalkanoate-accumulating traits for microbial populations in a biological phosphorus removal process. Environ. Microbiol., 3, 110-122. [Pg.240]

T. Mino, T. Kawakami and T. Matsuo (1985). Location of phosphorus in activated sludge and function of intracellular polyphosphates in biological phosphorus removal process. Water Sci. Technol., 17, 93-106. [Pg.244]

H. Ohtake, K. Yamada, Hardoyo, A. Muramatsu, Y. Anbe, J. Kato and H. Shinjo (1994). Genetic approach to enhanced biological phosphorus removal. Water Sci. Technol., 230, 185-192. [Pg.247]

H. Pereira, P. C. Lemos, M. J. T. Carrondo, J. P. S. Crespo, M. A. M. Peis and H. Santos (1996). Model for carbon metabolism in biological phosphorus removal processes based on in vivo 13C labelling experiment. Water Res., 30, 2128-2138. [Pg.249]

C. Schonborn, H. D. Bauer and L. Roske (2001). Stability of enhanced biological phosphorus removal and composition of polyphosphate granules. Water Res., 35, 3190-3196. [Pg.254]

R. J. Seviour, T. Mino and M. Onuki (2003). The microbiology of biological phosphorus removal in activated sludge. FEMS Microbiol. Rev., 27, 99-127. [Pg.255]

M. Streichan, J. R. Golecki and G. Schon (1990). Polyphosphate-accumulating bacteria from sewage plant with different processes of biological phosphorus removal. FEMS Microbiol. Ecol., 73, 113-124. [Pg.258]

Phosphorus is removed in wastewater treatment plants by chemical means (e.g., phosphorus precipitation with iron or aluminum see Section 10.1.2) and by microbiological means known as biological phosphorous removal. The principal advantages of biological phosphorus removal include reduced chemical costs and a smaller sludge production as compared to chemical precipitation. It is based on the following facts ... [Pg.285]

Renninger, N., McMahon, K. D., Rnopp, R., Nitsche. H.. Clark, D. S., and Keasling, J. D. (2001). Uranyl precipitation by biomass from an enhanced biological phosphorus removal reactor. Biodegradation 12, 401-410. [Pg.93]

Wentzel, M.C., Lotter, L.H., Loewenthal, R.F. and Marais, G.V.R. (1986) Metabolic behaviour of Acinetobacter spp. in enhanced biological phosphorus removal a biochemical model. Water South Africa 12, 209-224. [Pg.323]

Some bacteria are able to accumulate polyphosphate within their cells. This process is used in sewage treatment plants with enhanced biological phosphorus removal (Henze et ah, 1999 Blackall et ah, 2002). As polyphosphate is not part of organic molecules, it must be considered as an additional mass fraction of phosphorus denoted as... [Pg.354]

See other pages where Biological phosphorus removal is mentioned: [Pg.401]    [Pg.401]    [Pg.17]    [Pg.2]    [Pg.95]    [Pg.102]    [Pg.129]    [Pg.154]    [Pg.214]    [Pg.214]    [Pg.219]    [Pg.24]    [Pg.134]    [Pg.183]    [Pg.184]    [Pg.233]    [Pg.233]    [Pg.233]    [Pg.285]    [Pg.163]    [Pg.30]    [Pg.156]    [Pg.359]   
See also in sourсe #XX -- [ Pg.285 ]



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