论文信息 - Seasonal and diurnal variability of N2O emissions from a full-scale municipal wastewater treatment plant.

Seasonal and diurnal variability of N2O emissions from a full-scale municipal wastewater treatment plant.

During nitrogen removal in conventional activated sludge processes, nitrous oxide can be emitted. With a global warming potential of 298 CO2-equivalents it is an important greenhouse gas that affects the sustainability of wastewater treatment. The present study reports nitrous oxide emission data from a 16 month monitoring campaign on a full-scale municipal wastewater treatment. The emission demonstrated a pronounced diurnal and seasonal variability. This variability was compared with the variability of a number of process variables that are commonly available on a municipal wastewater treatment plant. On a seasonal timescale, the occurrence of peaks in the nitrite concentration correlated strongly with the emission. The diurnal trend of the emission coincided with the diurnal trend of the nitrite and nitrate concentrations in the tank, suggesting that suboptimal oxygen concentrations may induce the production of nitrous oxide during both nitrification and denitrification. This study documents an unprecedented dataset that could serve as a reference for further research.

[1] R. Zeng,et al. Enrichment of denitrifying glycogen-accumulating organisms in anaerobic/anoxic activated sludge system. , 2003, Biotechnology and bioengineering.

[2] G. Tallec,et al. Nitrous oxide emissions from secondary activated sludge in nitrifying conditions of urban wastewater treatment plants: effect of oxygenation level. , 2006, Water research.

[3] W. Gujer,et al. Activated sludge model No. 3 , 1995 .

[4] K. Chandran,et al. Effect of oxic and anoxic conditions on nitrous oxide emissions from nitrification and denitrification processes , 2011, Biotechnology and bioengineering.

[5] Charlotte Scheutz,et al. Plant-integrated measurement of greenhouse gas emissions from a municipal wastewater treatment plant. , 2014, Water research.

[6] G. Tallec,et al. Nitrous oxide emissions from denitrifying activated sludge of urban wastewater treatment plants, under anoxia and low oxygenation. , 2008, Bioresource technology.

[7] R. Stuetz,et al. Dinitrogen oxide production by a mixed culture of nitrifying bacteria during ammonia shock loading and aeration failure , 2002, Journal of Industrial Microbiology and Biotechnology.

[8] Gero Benckiser,et al. QUANTIFICATION OF EMITTED AND RETAINED N2O IN A MUNICIPAL WASTE WATER TREATMENT PLANT WITH ACTIVATED SLUDGE AND NITRIFYING-DENITRIFYING UNITS , 1998 .

[9] M. D. Butler,et al. Nitrous oxide emissions for early warning of biological nitrification failure in activated sludge. , 2009, Water research.

[10] Gero Benckiser,et al. Influence of environmental conditions on the amount of N2O released from activated sludge in a domestic waste water treatment plant , 1995, Experientia.

[11] H. Siegrist,et al. Online N2O measurement: the next standard for controlling biological ammonia oxidation? , 2013, Environmental science & technology.

[12] F. Schreiber,et al. Nitric oxide and nitrous oxide turnover in natural and engineered microbial communities: biological pathways, chemical reactions, and novel technologies , 2012, Front. Microbio..

[13] M. V. van Loosdrecht,et al. Reduced iron induced nitric oxide and nitrous oxide emission. , 2011, Water research.

[14] B. De Baets,et al. Influence of sampling strategies on the estimated nitrous oxide emission from wastewater treatment plants. , 2013, Water research.

[15] Zhiguo Yuan,et al. N2O production rate of an enriched ammonia-oxidising bacteria culture exponentially correlates to its ammonia oxidation rate. , 2012, Water research.

[16] H. Ngo,et al. Influence of organic shock loads on the production of N₂O in denitrifying phosphorus removal process. , 2013, Bioresource technology.

[17] W. Gujer,et al. Release of nitrous oxide (N2O) from denitrifying activated sludge: Verification and application of a mathematical model , 1996 .

[18] Zhiguo Yuan,et al. Nitrous oxide generation in full-scale biological nutrient removal wastewater treatment plants. , 2010, Water research.

[19] Lai Peng,et al. The effect of dissolved oxygen on N2O production by ammonia-oxidizing bacteria in an enriched nitrifying sludge. , 2014, Water research.

[20] Y. Kimochi,et al. Effects of SRT and DO on N2O reductase activity in an anoxic-oxic activated sludge system. , 2004, Water science and technology : a journal of the International Association on Water Pollution Research.

[21] M. Heinonen,et al. N2O emissions from secondary clarifiers and their contribution to the total emissions of the WWTP. , 2014, Water science and technology : a journal of the International Association on Water Pollution Research.

[22] T. Stephenson,et al. Nitrous oxide emissions and dissolved oxygen profiling in a full-scale nitrifying activated sludge treatment plant. , 2013, Water research.

[23] R. Lemaire,et al. Identifying causes for N2O accumulation in a lab-scale sequencing batch reactor performing simultaneous nitrification, denitrification and phosphorus removal. , 2006, Journal of biotechnology.

[24] S. Fushinobu,et al. Nitrous oxide emission from nitrifying activated sludge dependent on denitrification by ammonia-oxidizing bacteria. , 2010, Bioresource technology.

[25] M. V. van Loosdrecht,et al. Nitrous oxide production by lithotrophic ammonia-oxidizing bacteria and implications for engineered nitrogen-removal systems. , 2011, Biochemical Society transactions.

[26] Zhiguo Yuan,et al. N2O production by ammonia oxidizing bacteria in an enriched nitrifying sludge linearly depends on inorganic carbon concentration. , 2015, Water research.

[27] M. Beier,et al. Influence of operating conditions on nitrous oxide formation during nitritation and nitrification , 2014, Environmental Science and Pollution Research.

[28] Yan Zhou,et al. Free nitrous acid inhibition on nitrous oxide reduction by a denitrifying-enhanced biological phosphorus removal sludge. , 2008, Environmental science & technology.

[29] M. V. van Loosdrecht,et al. Novel method for online monitoring of dissolved N2O concentrations through a gas stripping device , 2015, Environmental technology.

[30] R. Stuetz,et al. Dinitrogen oxide detection for process failure early warning systems. , 2002, Water science and technology : a journal of the International Association on Water Pollution Research.

[31] P. Bonin,et al. Effects of oxygen on each step of denitrification on Pseudomonas nautica , 1989 .

[32] Qing Yang,et al. Formation of nitrous oxide in a gradient of oxygenation and nitrogen loading rate during denitrification of nitrite and nitrate. , 2012, Journal of hazardous materials.

[33] Zhiguo Yuan,et al. Partial nitrification to nitrite using low dissolved oxygen concentration as the main selection factor , 2007, Biodegradation.

[34] H. Xie,et al. Effect of PHB and oxygen uptake rate on nitrous oxide emission during simultaneous nitrification denitrification process. , 2012, Bioresource technology.

[35] M. V. van Loosdrecht,et al. Nitrous oxide emission during wastewater treatment. , 2009, Water research.

[36] C. W. Randall,et al. Nitrite build-up in activated sludge resulting from combined temperature and toxicity effects , 1984 .

[37] Y. Kimochi,et al. Nitrogen removal and N2O emission in a full-scale domestic wastewater treatment plant with intermittent aeration , 1998 .

[38] James E. Alleman,et al. Elevated Nitrite Occurrence in Biological Wastewater Treatment Systems , 1985 .

[39] A. Ravishankara,et al. Nitrous Oxide (N2O): The Dominant Ozone-Depleting Substance Emitted in the 21st Century , 2009, Science.

[40] M. V. van Loosdrecht,et al. Methane emission during municipal wastewater treatment. , 2012, Water research.

[41] W. Gujer,et al. Release of nitric and nitrous oxides from denitrifying activated sludge , 1995 .

[42] K. Hanaki,et al. Nitrous oxide production in high-loading biological nitrogen removal process under low COD/N ratio condition. , 2001, Water research.