Gaseous emissionsThe emission rates

Gaseous emissions

The emission rates of NH3, N2O and CH4 during sludge composting in each treatment are presented in Fig. 5. Similar to previous research, the NH3 emissions mainly occurred in the thermophilic phase in all of the treatments (Yang et al., 2013 and Luo et al., 2014). This was probably because of the strong biodegradation of organic nitrogen to inorganic nitrogen (for example, NH4+-N could evaporate as NH3 at the relatively high temperatures that were reached). The NH3 emission of AR = 0.1 and AR = 0.2 treatments reached their peak values at Day 6 (0.26 and 0.5 g·kg−1·d−1 (dry matter), respectively). The peak NH3 emission of the AR = 0.3 treatment occurred at Day 11 with the delayed thermophilic phase and was 0.18 g·kg−1·d−1. During the curing phase (after Day 14), the NH3 emissions of the three treatments decreased gradually with the decrease of composting temperature. Throughout the whole composting process, cumulative emissions of NH3 for the three treatments were 0.57, 1.4 and 0.44 g·kg−1 and the moderate AR had the highest NH3 emissions. The emission rates of NH3 depend on the ammonification rate of organic nitrogen and the carrying capacity of the AR. Thus, AR = 0.1 had the lowest carrying capacity and AR = 0.3 had the lowest ammonification rate, while AR = 0.2 had both a higher ammonification rate and carrying capacity, so the moderate AR = 0.2 treatment had the highest NH3 emissions. The statistical analysis showed that the AR had a significant influence on NH3 emissions (p = 0.049). No significant differences were found between the treatments with low and high AR (p = 0.912), but both of those were significantly different from the treatments with a moderate AR (p = 0.035 and p = 0.045 for AR = 0.1 and AR = 0.2, respectively).