4.2. Effects of long-term loading o

4.2. Effects of long-term loading on zero order removal rates of ammonia and nitrite
The substrate independent removal rate, i.e. the zero order removal rate constants (g/m2/d), for ammonia and nitrite increased

significantly with increased long-term feed loading up to a feed loading of 69g/m2 filter media/d corresponding to a calculated


Time [min] Time [min]

Time [min] Time [min]

Fig. 3. Nitrite-N concentrations measured after spiking at time 0 with nitrite in five experimental moving bed biofilters operated at increasing loadings (Table 1). Two spiking rounds were carried out as indicated by white and black symbols. Circles and triangles refer to data included for calculating zero and first order removal rate constants, respectively (fitted lines shown), while squares () indicate start and end values of nitrate-N.
TAN + urea-N concentration of 2.70 mg N/l. Substrate load to the biofilm was the only factor varied in this experimental set-up, and the zero order removal rate constants therefore reflect the maximum reaction rate limited by the bacterial metabolism.
Increasing bulk water substrate concentrations caused by increasing feed loads provided higher substrate fluxes into the biofilms, presumably promoting growth of more attached bacterial biomass and hence increased thickness of the effective biofilms (Shieh et al., 1981, Wijeyekoon et al., 2004) at least until a certain “threshold” level (loading level 3 in the current study). Accordingly, thicker effective biofilms have been reported to provide increased surface specific removal rates at conditions where substrate bulk concentrations are non-limiting (Henze et al., 2002).