4.2.3. Inorganic nutrient transform

4.2.3. Inorganic nutrient transformations


Concentrations of inorganic nutrients in the supernatant of settlers and digesters are dictated by the balance between chemical, physical and biological processes responsible for their release from or removal by the sludge layer of the settler/digester. Sludge residence time has a major influence on these processes. With respect to nitrogen, ammonia concentrations are often found to increase due to ammonification of nitrogenous organic matter (e.g. Conroy and Couturier, 2010; Stewart et al., 2006). Various processes may counteract this ammonia accumulation. Ammonia assimilation is particularly evident in reactors operated at high redox potentials
due to a relative large increase in bacterial biomass while nitrification of ammonia may also take place in aerobic parts of the reactors (Cytryn et al., 2005; Klas et al., 2006). Not only under aerobic conditions but also under anaerobic conditions ammonia removal might take place. Under such conditions, nitrate, often present in the RAS effluent stream, will not only be denitrified to elemental nitrogen at appropriate hydraulic retention times, but may indirectly, through reduction to nitrite, serve as an electron acceptor for anammox bacteria whereby both ammonia and nitrite are converted to elemental nitrogen gas (Lahav et al., 2009; Tal et al.,
2003).