Improvement of ferrous ion-dependent nitrate removal (FeNiR) process with chelating ferrous ion as substrate.

In order to improve the fe rrous ion-dependent ni trate r emoval (FeNiR) process, hexametaphosphate chelated ferrous ion was used as substrate to replace the free ferrous ion. With hexametaphosphate chelated ferrous ion as substrate, the influent pH was adjusted to 6.8, and as a result a higher effluent pH (7.2) was detected. The v olumetric r emoval r ate (VRR) of nitrate kept at 0.42 ± 0.03 kg-N/(m3∙d) for 48 days and the corresponding nitrogen removal efficiency was 94.39 ± 4.57%. After 88 days of cultivation, FeNiR granules became small because of the oligotrophic substrate. The transmission electron microscope (TEM) analysis showed that less iron encrustation was formed on the surface or in the periplasm of FeNiR cells. The linear curve of the living cell percentage versus time showed that the death rate of FeNiR cells with chelated ferrous ion as substrate was much lower than that with free ferrous ion as substrate (0.4210 vs 0.9221). Without iron encrustation, both the FeNiR activity and al kaline p hosphatase (ALP) activity of FeNiR cells kept at high level and thus the efficiency of the FeNiR reactor kept stable and high. With hexametaphosphate chelated ferrous ion as substrate, the pH in bulk liquid was high (pH = 7.2) resulting in the high FeNiR rate, and less iron encrustation was formed around cells ensuring the stability of high FeNiR rate. Therefore, using hexametaphosphate chelated ferrous ion as substrate was an efficient way to improve the FeNiR process. Image 1 • With chelating Fe(II) as substrate the FeNiR rate kept at 0.42 kg-N/(m3∙d) for 48 days. • Chelating Fe(II) allowed a high pH (7.2) in reactor thus resulted in the high FeNiR rate. • Chelating Fe(II) caused few iron encrustation thus the high FeNiR rate kept stable. [ABSTRACT FROM AUTHOR]