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Tytuł artykułu

Czynniki wpływające na emisję podtlenku azotu

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
EN
Factors influencing nitrous oxide emission
Języki publikacji
PL
Abstrakty
PL
Mechanizm powstawania podtlenku azotu (N2O). Główne czynniki powodujące emisje podtlenku azotu. Powiązania procesu pomiędzy emisją podtlenku azotu a rodzajem oczyszczalni ścieków.
EN
Mechanism of the nitrous oxide forms (N2O) creation. Main factors of the N2O emission creation. Existing correlation between emission of the N2O and solution of the wastes treatment plant.
Rocznik
Tom
Strony
179--184
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
  • Politechnika Gdańska, Wydział Inżynierii Lądowej i Środowiska
Bibliografia
  • 1. Ahn J., Pagilla K., Chandran K.: Spatial and Temporal Variability in Atmospheric Nitrous Oxide Generation and Emission from Full- Scale Biological Nitrogen Removal and Non- BNR Processes. Water Environ Res. 82 (12), 2010, 2362-2372.
  • 2. Alinsafi A.: Nitrite effect on nitrous oxide emission from denitrifying activated sludge. Process Biochemistry 43 (6), 2008, 583-689.
  • 3. Anderson, I. c., Poth M., Homstead J, Burdige D.: Comparison of nitric oxide and nitrous oxide production by the autotrophic nitrifier Nitrosomonas europaea and the heterotrophic nitrifier Alcaligenes faecalis. Applied and Environmental Microbiology 59 (11), 1993,3525-3533.
  • 4. Chandran K.: Characterization of Nitrogen Greenhouse Gas Emissions from Wastewater Treatment BNR Operations. Field Protocol with Quality Assurance Plan, 2009.
  • 5. Garrido J. M., Moreno J, Mendez-Pampin R., Lema J. M.: Nitrous oxide production under toxic conditions in a denitrifying anoxic filter. Water Research 32 (8), 1998,2550-2552.
  • 6. Gejlsbjerg B., Frette L., Westermann P.: Dynamics of N2O Production from Activated Sludge. Water Research, 1998.
  • 7. Hanaki K., Hong Z., Matsuo T.: Production of nitrous oxide gas during denitrification of wastewater. Water Science and Technology 26 (5-6), 1992, 1027-1036.
  • 8. Hu Z., Zhang J.: Identifying Sources of Nitrous Oxide Emission in Anoxic/Aerobic Sequencing Batch Reactors (AIO SBRs) Acclimated in different Aeration Rates. Enzyme Microb Technol. 10;49 (2), 2011, 237-245.
  • 9. Hynes R. K., Knowles R.: Production of nitrous oxide by Nitrosomonas europaea: effects of acetylene, pH, and oxygen. Canadian Journal of Microbiology 30 (11), 1984, 1397-1404.
  • 10. IPCC Climate Change: Synthesis Report. Intergovernmental Panel on Climate Change, Geneva, Switzerland 2007.
  • 11. Itokawa H., Hanaki K., Matsuo T.: Nitrous oxide production in highloading biological nitrogen removal process under low CHZT/N ratio condition. Water Research 35(3), 2001, 657-664.
  • 12. Kampschreur M. J., Tan N. c.: Effects of Dynamic Proccss Conditions on Nitrogen Oxides Emission from Nitrifying Culture. Environ Sci. Technol. 15;42 (2), 2008, 429-435.
  • 13. Kampschreur M. J., Temmink H., Kleerebezem R., Jetten M. S. M., van Loosdrecht M. C. M.: Nitrous oxide emission during wastewater treatment. Water Res., 43, 2009, 4093-4103.
  • 14. Kampschreur M., Wouter R. L.: Dynamics of nitric oxide and nitrous oxide emission during full-scale reject water treatment. Water Res ., 2007.
  • 15. Kim S., Miyahara M., Fushinobu S.: Nitrous oxide emission from nitrifying activated sludge dependent on denitrification by ammonia- oxidizing bacteria. Bioresour Technol 101 (11) 6, 2010.
  • 16. Konneke M., Bernhard A. E., Walker C.; Isolation of an autotrophic ammonia-oxidizing marine archaeon. Nature 437 (97058), 2005,543-546.
  • 17. Noda N., Kaneko N.: Effects of SRT and DO on N2O reductase activity in an anoxic/oxic activated sludge system. Water Sci. Technol. 48 (11-12), 2003, 363-370.
  • 18. Rassamee v., Sattayatewa c., Pagila K.: Effect of Oxic and Anox ic Conditions on Nitrous Oxide Emission frorn Nitrification and Denitrification Proeesses. Biotechnol Bioeng, 2011,2036-2045.
  • 19. Schneider Y.. Beier M.: Nitrous Oxide Emission from Wastewater Treatment Plants - Improving the Quality of Measuring Data. Proceedings of the Leading - Edge Conference on Water and Wastewater Technology, International Water Association, 2010.
  • 20. Schulthess R. v., Kuehni M., Gujer W.: Release of nitric and nitrous oxides from denitrifying activated sludge. Water Research 29 (1), 1995, 215-226.
  • 21. Sumer E., Weiske A. Benckiser, G.; Ottow, J. C. G.: Influence of environmental conditions on the amount of N2O released from activated sludge in a domestic waste water treatment plant. Experientia 51 (4), 1995, 419-422.
  • 22. Suzuki J., Tsuji K., Fujita M.: Factors Controlling Nitrification Potential and Nitrous Oxide Production in Wastewater Treatment. WA-ASPIRE Regional Conference and Exhibition, 2011.
  • 23. Thoern M., Soerensson F.: Variation of nitrous oxide formation in the denitrification basin in a wastewater treatment plant with nitrogen removal. Water Research 30 (6), 1996, 1543-1547.
  • 24. Wrage N, Velthof G.: Role of nitrifier dcnitrification in the production of nitrous oxide. Soil Biology and Biochemistry 33, 2001, 1723-1732.
  • 25. Zheng H., Hanaki K., Matsuo T.: Production of nitrous oxide gas during nitrification of wasterwater. Water Science and Technology 30 (6), 1994, 133-141.
  • 26. http:/www.rpi.edu/dept/chem-eng/Biotech-Environ/Environmental/Air/ese/ese.htm
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-85132fed-40fc-4116-987f-60e6c6fdb2c1
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