Effect of SRT on Stability of Yeast-SBR in Treating Oil-containing Wastewater

Abstract

Sludge retention time(SRT) is a crucial parameter to influence the stability of biological wastewater treatment systems. Especially, the effects of SRT on yeast-wastewater treatment remain unclear. In this study, mixtures of yeast strains were applied to treat oil-containing wastewater in sequencing batch reactors(SBR) and the effects of sludge retention time(SRT as 5, 10, 20, 40 d) on the removal efficiency of pollutants, contents and composition of extracellular polymeric substances(EPS), yeast cells settleability and yeast communities were investigated. The results showed that the recommended SRT was 5-10 d for the yeast-SBR system; Higher SRT led to decrease of COD removal rate and content of EPS; the tightly-bounded EPS was the major one which consisted of polysaccharides. SRT of 5-40 d had no significant effects on the SVI of yeast cells, however, longer SRT (>20 d) resulted in the increase of mycelial cells and a tendency to produce the filamentous bulking. In the continuous operation of SBR, three extraneous yeast strains capable of utilizing or degrading oil were identified in the systems under the short and long SRT. To conclude, shorter SRT was favorable for the system stability in treating oil-containing wastewater by yeasts.