In this study, high-rate autotrophic denitrification driven by thiosulfate (S2O3 2−) was maintained under psychrophilic conditions in a lab-scale fluidized-bed reactor (FBR) with a Thiobacillus-dominated biofilm. The temperature effects on the denitrifying performance of the FBR were monitored by gradually decreasing the temperature from 20 to 3 °C. The potential of the FBR biofilm to maintain thiosulfate-driven denitrification at 3 °C was further investigated at different HRTs (5.4, 3 and 1 h) and influent NO3 − concentrations (200, 600 and 1078 mg/L), resulting in a gradual increase of the nitrogen loading rate (NLR) from 0.20 to 3.3 kg N-NO3 −/m3 d. Complete thiosulfate-driven denitrification could be maintained at all temperatures, HRTs and influent NO3 − concentrations tested. PCR-DGGE analysis revealed the dominance of the sulfur-oxidizing chemolithotrophs T. denitrificans and T. thioparus at all temperatures investigated. The FBR operation at a temperature as low as 3 °C promoted bed expansion and increased the dissolved organic carbon (DOC) concentration in the effluent, but had no significant effects on the denitrification efficiency. The findings of this study are highly significant for the treatment of cold nitrogen-contaminated waters poor in organics and confirm the FBR as a robust and powerful bioreactor system for autotrophic denitrification.

High-rate autotrophic denitrification in a fluidized-bed reactor at psychrophilic temperatures

DI CAPUA, Francesco;ESPOSITO, Giovanni
2017-01-01

Abstract

In this study, high-rate autotrophic denitrification driven by thiosulfate (S2O3 2−) was maintained under psychrophilic conditions in a lab-scale fluidized-bed reactor (FBR) with a Thiobacillus-dominated biofilm. The temperature effects on the denitrifying performance of the FBR were monitored by gradually decreasing the temperature from 20 to 3 °C. The potential of the FBR biofilm to maintain thiosulfate-driven denitrification at 3 °C was further investigated at different HRTs (5.4, 3 and 1 h) and influent NO3 − concentrations (200, 600 and 1078 mg/L), resulting in a gradual increase of the nitrogen loading rate (NLR) from 0.20 to 3.3 kg N-NO3 −/m3 d. Complete thiosulfate-driven denitrification could be maintained at all temperatures, HRTs and influent NO3 − concentrations tested. PCR-DGGE analysis revealed the dominance of the sulfur-oxidizing chemolithotrophs T. denitrificans and T. thioparus at all temperatures investigated. The FBR operation at a temperature as low as 3 °C promoted bed expansion and increased the dissolved organic carbon (DOC) concentration in the effluent, but had no significant effects on the denitrification efficiency. The findings of this study are highly significant for the treatment of cold nitrogen-contaminated waters poor in organics and confirm the FBR as a robust and powerful bioreactor system for autotrophic denitrification.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11580/62823
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