The role of loading rate, backwashing, water and air velocities in an up-flow nitrifying tertiary filter.

The vertical distribution of nitrification performances in an up-flow biological aerated filter operated at tertiary nitrification stage is evaluated in this paper. Experimental data were collected from a semi-industrial pilot-plant under various operating conditions. The actual and the maximum nitrification rates were measured at different levels inside the up-flow biofilter. A nitrogen loading rate higher than 1.0kgNH4–Nm−3_mediad−1 is necessary to obtain nitrification activity over all the height of the biofilter. The increase in water and air velocities from 6 to 10mh−1 and 10 to 20mh−1 has increased the nitrification rate by 80% and 20% respectively. Backwashing decreases the maximum nitrification rate in the media by only 3–14%. The nitrification rate measured at a level of 0.5m above the bottom of the filter is four times higher than the applied daily average volumetric nitrogen loading rate up to 1.5kgNH4–Nm−3_mediad−1. Finally, it is shown that 58% of the available nitrification activity is mobilized in steady-state conditions while up to 100% is used under inflow-rate increase.