activated
sludge population dynamics and
wastewater
treatment plant design and operation
(experience
from national survey of activated sludge plants in 1995-1999)
Jiri Wanner, Iveta Ruzickova, Olga
Krhutkova, Milan Pribyl
Prague Institute of Chemical Technology
Department of Water Technology and
Environmental Engineering
Technicka 5, CZ-166 28 Prague, Czech
Republic; e-mail: jiri.wanner@vscht.cz
ABSTRACT
The development and tasks of IAWQ
specialist group on Activated Sludge
Population Dynamics have been briefly described. The paper is aimed at
three main topics of population dynamics, i.e., competition of nitrifying and
organotrophic bacteria, population dynamics of enhanced biological phosphate
removal, and activated sludge bulking and foaming. The population dynamics
problems are illustrated on examples of Czech activated sludge plants. The
examples were selected from a large national survey of activated sludge plants
accomplished in 1995-1999. Nitrification proved to be the most difficult process
to design and control in nutrient removal activated sludge systems. The survey
of enhanced biological phosphate removal processes has shown that the
arrangements used in the Czech Republic support well this process. The
competition of PAOs with „G“ bacteria in full-scale plants is less common that
could be expected from previous laboratory studies. The phenomenon of anoxic
phosphate uptake was also observed in full-scale plants. Traditional activated
sludge separation problem of bulking was observed with much less frequency than
expected. On the other hand, foaming caused by M. parvicella, N. limicola and
by GALOs has become the most serious operation problem. The survey has also
shown that physical rather than biological methods of foaming control are successfully
applied in Czech activated sludge plants. The extent of foaming problems
underlines the importance of a proper design and construction of final
clarifiers.
KEYWORDS
Wastewater treatment; activated sludge;
population dynamics; nitrification; phosphate removal; anoxic phosphate uptake;
bulking; foaming; filamentous microorganisms; Microthrix parvicella