The release of DOC and the ammonium

The release of DOC and the ammonium formation were related to the types of carbon sources and the operation conditions, such as temperature, HRT and operation time. It is known that the concentration of effluent DOC was lower when using biodegradable polymers for denitrification than using natural plant-like materials. A small increase in DOC of 3.0 mg L−1 was observed in a packed reactor filled with PCL (Honda and Osawa, 2002).
Cameron and Schipper (2010) documented that the leaching concentration of DOC and ammonium increased at start-up period and declined during 2–6month of operation for all tested carriers, including woodchips, straws and maize cobs in denitrification beds, while generally leaching of DOC and ammonium was higher at 23.5 °C than at 14 °C. A higher release of DOC and ammoniumduring the start-up period of denitrification reactors was also observed in our previous research (Shen et al., 2013b).
Typically, a higher HRT seems to favor a greater dissolution of carbon source and ammonium production (Robertson and Cherry, 1995; Healy et al., 2012).
Our research showed that the effluent DOC decreased from 9.4–26.8 mg L−1 to 3.1– 13.1 mg L−1 as the HRT decreased from 1.0 h to 0.5 h when using PCL as carbon source for denitrification (Wu et al., 2013a), suggesting that the selection of appropriate carbon source and critical design of HRT and the operational temperature are important to minimize the leaching concentration of DOC and ammonium formation.
In general, the denitrification process, including using the soluble ethanol and methanol as extra carbon source, requires additional treatment to prevent the deterioration of the effluent quality.
The treatment methods commonly used for drinkingwater, such as adsorption by granular activated carbon, are efficient to polish the effluent (Soares and Abeliovich,1998; Karanasios et al., 2010).