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Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units

Yıl 2017, Cilt: 2 Sayı: 1, 51 - 56, 25.02.2017

Öz

Nickel and copper are widely encountered in the
industrial wastewaters. The purpose of this batch experimental study was to
evaluate single and combined effects of copper and nickel on the nitrification
organism activities.
Trace amounts of Cu2+
stimulate the activity of nitrifiers and ARRs increased from 0.225 to about 0.5
mg NH4-N/mg MLSS.day on the first day by elevating Cu2+
concentrations from zero to 0.05 mg/L, respectively. Nitrification inhibition
was not observed during the experimental studies for the studied Cu2+
concentrations.
The ARRs of the nitrification organisms were also found
to have decreased by about 16 to 21 fold upon addition of
Ni2+. Additions of Ni2+ negatively
affect the ammonium oxidation and reaction was not detected during the
operations of third day. The ARR values for the studied initial Ni2+
concentrations were lower than the blank sample.
The simultaneous
presences of Ni2+
-Cu2+ negatively affect the activity
of nitrification organisms. In order to achieve the same ammonium oxidation
level as compared with the blank sample, it needs more reaction times. The
experimental results indicated that it is possible to treat industrial
wastewater Ni2+ and Cu2+ with individually or together.
The toxicity of heavy metal could be minimized by increasing the microorganisms
in the biological reactor.

Kaynakça

  • 1. Wang, Y., Zhao, Y., Ji, M., and Zhai, H., “Nitrification recovery behavior by bio-accelerators in copper-inhibited activated sludge system” Bioresource Technology, 192, 748–755, 2015.
  • 2. Wang, Y., Ji, M., Zhao, Y., and Zhai, H., “Recovery of nitrification in cadmium-inhibited activated sludge system by bio-accelerators” Bioresource Technology, 200, 812–819, 2016.
  • 3. Juliastuti, S.R., Baeyens, J., and Creemers, C., “Inhibition of Nitrification by Heavy Metals and Organic Compounds: The ISO 9509 Test” Environmental Engineering Science, 20, 2, 2003.
  • 4. Ozbelge, T.A., Ozbelge, H.O, and Altınten, P. “Effect of acclimatization of microorganisms to heavy metals on the performance of activated sludge process” Journal of Hazardous Materials, 142, 332–339, 2007.
  • 5. Lipczynska-Kochany, E. and Kochany, J., “Effect of humate on biological treatment of wastewater containing heavy metals” Chemosphere, 77, 279–284, 2009.
  • 6. Metzner, A.V., “Removing soluble metals from wastewater” Water Sewage Works, 124, 98–101,1977.
  • 7. Bagby, M. M. and Sherrard, J. H., “Combined effects of cadmium and nickel on the activated sludge process”, Journal Water Pollution Control Federation, 53, 11, 1609-1619, 1981.
  • 8. Beyenal, N.Y., Ozbelge T.A., ad Ozbelge H.O., “Combined Effects of Cu2+ and Zn2+ on Activated Sludge Process” Water Research, 31, 4, 699-704, 1997.
  • 9. Yetis, U., Demirer, G.N., and Gokcay, C.F. “Effect of Chromium (VI) on the Biomass Yield of Activated Sludge” Enzyme Microbial Technology, 25, 48–54, 1999.
  • 10. Carucci, A., Chiavola, A., Majone, M., and Rolle, E. “Treatment of tannery wastewater in a sequencing batch reactor” Water Science and Technology, 40, 253–259, 1999.
  • 11. Farabegoli, G., Carucci, A., Majone, M., and Rolle, E. “Biological treatment of tannery wastewater in the presence of chromium” Journal of Environmental Management, 71, 345–349, 2004.
  • 12. Lee, Y.W., Tian, Q., Ong, S. K., Sato, C., and Chung, J. “Inhibitory effects of copper on nitrifying bacteria in suspended and attached growth reactors” Water Air Soil Pollution, 203, 17–27, 2009.
  • 13. Gikas, P. “Single and combined effects of nickel (Ni(II)) and cobalt (Co(II)) ions on activated sludge and on other aerobic microorganisms” Journal of Hazardous Materials, 159, (2–3), 187203, 2008.
  • 14. Campos, J.L., Garrido-Fernandez, J.M., Mendez, R., and Lema, J.M. “Nitrification at high Ammonia Loading Rates in an Activated Sludge Unit” Bioresource Technology, 68, 141-148, 1999.
  • 15. Semerci, N. and Cecen, F., “Importance of the Zn Species in batch nitrification systems” Water Practice Technology, 1 (3), 2006.
  • 16. Hu, Z., Domenicograsso, K., and Smets, B., “Impact of Metal Sorption and Internalization on Nitrification Inhibition” Environmental Science Technology, 37, 728-734, 2003.
  • 17. APHA, (1998) 20th ed. American Public Health Association/American Water Works Association/Water Environment Federation, Washington, DC, USA.
Yıl 2017, Cilt: 2 Sayı: 1, 51 - 56, 25.02.2017

Öz

Kaynakça

  • 1. Wang, Y., Zhao, Y., Ji, M., and Zhai, H., “Nitrification recovery behavior by bio-accelerators in copper-inhibited activated sludge system” Bioresource Technology, 192, 748–755, 2015.
  • 2. Wang, Y., Ji, M., Zhao, Y., and Zhai, H., “Recovery of nitrification in cadmium-inhibited activated sludge system by bio-accelerators” Bioresource Technology, 200, 812–819, 2016.
  • 3. Juliastuti, S.R., Baeyens, J., and Creemers, C., “Inhibition of Nitrification by Heavy Metals and Organic Compounds: The ISO 9509 Test” Environmental Engineering Science, 20, 2, 2003.
  • 4. Ozbelge, T.A., Ozbelge, H.O, and Altınten, P. “Effect of acclimatization of microorganisms to heavy metals on the performance of activated sludge process” Journal of Hazardous Materials, 142, 332–339, 2007.
  • 5. Lipczynska-Kochany, E. and Kochany, J., “Effect of humate on biological treatment of wastewater containing heavy metals” Chemosphere, 77, 279–284, 2009.
  • 6. Metzner, A.V., “Removing soluble metals from wastewater” Water Sewage Works, 124, 98–101,1977.
  • 7. Bagby, M. M. and Sherrard, J. H., “Combined effects of cadmium and nickel on the activated sludge process”, Journal Water Pollution Control Federation, 53, 11, 1609-1619, 1981.
  • 8. Beyenal, N.Y., Ozbelge T.A., ad Ozbelge H.O., “Combined Effects of Cu2+ and Zn2+ on Activated Sludge Process” Water Research, 31, 4, 699-704, 1997.
  • 9. Yetis, U., Demirer, G.N., and Gokcay, C.F. “Effect of Chromium (VI) on the Biomass Yield of Activated Sludge” Enzyme Microbial Technology, 25, 48–54, 1999.
  • 10. Carucci, A., Chiavola, A., Majone, M., and Rolle, E. “Treatment of tannery wastewater in a sequencing batch reactor” Water Science and Technology, 40, 253–259, 1999.
  • 11. Farabegoli, G., Carucci, A., Majone, M., and Rolle, E. “Biological treatment of tannery wastewater in the presence of chromium” Journal of Environmental Management, 71, 345–349, 2004.
  • 12. Lee, Y.W., Tian, Q., Ong, S. K., Sato, C., and Chung, J. “Inhibitory effects of copper on nitrifying bacteria in suspended and attached growth reactors” Water Air Soil Pollution, 203, 17–27, 2009.
  • 13. Gikas, P. “Single and combined effects of nickel (Ni(II)) and cobalt (Co(II)) ions on activated sludge and on other aerobic microorganisms” Journal of Hazardous Materials, 159, (2–3), 187203, 2008.
  • 14. Campos, J.L., Garrido-Fernandez, J.M., Mendez, R., and Lema, J.M. “Nitrification at high Ammonia Loading Rates in an Activated Sludge Unit” Bioresource Technology, 68, 141-148, 1999.
  • 15. Semerci, N. and Cecen, F., “Importance of the Zn Species in batch nitrification systems” Water Practice Technology, 1 (3), 2006.
  • 16. Hu, Z., Domenicograsso, K., and Smets, B., “Impact of Metal Sorption and Internalization on Nitrification Inhibition” Environmental Science Technology, 37, 728-734, 2003.
  • 17. APHA, (1998) 20th ed. American Public Health Association/American Water Works Association/Water Environment Federation, Washington, DC, USA.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Makaleler
Yazarlar

Sukru Aslan

Yayımlanma Tarihi 25 Şubat 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 2 Sayı: 1

Kaynak Göster

APA Aslan, S. (2017). Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units. European Journal of Sustainable Development Research, 2(1), 51-56.
AMA Aslan S. Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units. EJSDR. Şubat 2017;2(1):51-56.
Chicago Aslan, Sukru. “Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units”. European Journal of Sustainable Development Research 2, sy. 1 (Şubat 2017): 51-56.
EndNote Aslan S (01 Şubat 2017) Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units. European Journal of Sustainable Development Research 2 1 51–56.
IEEE S. Aslan, “Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units”, EJSDR, c. 2, sy. 1, ss. 51–56, 2017.
ISNAD Aslan, Sukru. “Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units”. European Journal of Sustainable Development Research 2/1 (Şubat 2017), 51-56.
JAMA Aslan S. Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units. EJSDR. 2017;2:51–56.
MLA Aslan, Sukru. “Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units”. European Journal of Sustainable Development Research, c. 2, sy. 1, 2017, ss. 51-56.
Vancouver Aslan S. Single and Combined Effects of Copper and Nickel on Nitrification Organisms in Batch Units. EJSDR. 2017;2(1):51-6.