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Alternative Treatment Strategy for Different Streams of Tannery Wastewater

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Języki publikacji
EN
Abstrakty
EN
This article discusses the results of laboratory tests aimed to determine the effectiveness of tannery wastewater treatment in the process of enhanced oxidation using Fenton reagent. The general sewage from the tannery located in Mazowieckie Province was used for the research. The process was carried out using two doses of iron of 0.45 g Fe2+/dm3. and 0.56 g Fe2+/dm3, and H2O2 from 2.21 g/dm3 to 4.08 g/dm3. All the tests were performed for a constant optimum pH of 3.0. Wastewater was characterized by basic physico-chemical indicators (pH, conductivity, COD, chromium, ammonium nitrogen). The efficiency of the process was determined mainly on the basis of changes in the organic pollutants identified as COD. The efficacy of the Fenton process for different doses of Fe2+ and Fe2+ / H2O2 ratio of 1: 5, 1: 6 and 1: 7 was from 69 to 80% COD reduction in relation to raw sewage. Another aspect of the study was determining the possibility of removing sulphides from the wastewater by catalytic oxygenation with oxygen from air in the presence of manganese. In this case, the wastewater produced during leather manufacture in tanneries located in the southern part of Poland was examined. The subject of the study described in the paper was to determine the optimum manganese dose and oxidation time to simultaneously remove the sulphides and organic pollutants expressed as COD. The change in pollutant content in the wastewater over time indicates that the reduction of parameters takes place within one hour after the addition of manganese. Using the process of catalytic oxidation with 0.1 g/dm3 to 0.6 g/dm3 manganese and a reaction time of 1, 3, 24 h, the sulphides were removed in the range of 50 to 99% and organic compounds in 12 to 65%.
Rocznik
Strony
160--168
Opis fizyczny
Bibliogr. 26 poz., tab., rys.
Twórcy
autor
  • Faculty of Materials, Civil and Environmental Engineering University of Bielsko-Biala, Willowa St. 2, 43-300, Bielsko-Biala, Poland
Bibliografia
  • 1. Abdel-Aal E.A., Farghaly F. E., Abdel- Wahed R.T., El-Shahat M.F. 2015. Treatment of Industrial Wastewater Using Advanced Oxidation Processes. International Journal of Scientific in Agricultural Sciences, 2(Proceedings), 68–78
  • 2. APHA.2005. Standarts Methods for the Examination of Water and Wastewater.21 ed. America Public Health Associoaton. Washington
  • 3. Ayoub G.M., Hamzeh A., Semerjian. 2011. Post treatment of tannery wastewater using lime/bittern coagulation and activated carbon adsorption. Desalination, 273, 359–365.
  • 4. BAT. (2013). Best Available Techniques Reference Document for the Tanning of Hides and Skin. Available at: http://life-shoebat.eu/en/search-tools/ tannery-bats/item/tannery-45-en.
  • 5. Barbusiński K. (2009). Fenton reaction- controversy concerning the chemistry. Ecological Chemistry and Engineering S,16,3,347–358.
  • 6. Cesaro A. Naddeo V., Belgiorno V. 2013. Wastewater treatment by combination of advanced oxidation processes and conventional biological systems.Bioremediation and Biodegradation 4, 18, 1–8.
  • 7. Chowdhury M., Mostafa M.G., Tapan Kumar Biswas, Ananda Kumar Saha. 2013. Treatment of leather in dustrial effluents by filtration and coagulation processes. Water Resources and Industry, 3, 11–22.
  • 8. Cooman K., Gajardo M., Nieto J., Bornhardt C., Vidal G. 2003.Tannery Wastewater Characterization and Toxicity Effects on Daphnia spp. Environmental Toxicology, 18, 45–51.
  • 9. Durai G., Rajasimman M. 2011. Biological Treatment of Tannery Wastewater – A Review. Journal of Environmental Science and Technology,4, 1–17.
  • 10. Kociołek – Balawejder E, Wilk Ł. (2012a). Sulfides in aqueous enviroment. Part 2. Preventing the emission and removal. Przemysł chemiczny.91/12, 2345 -2350
  • 11. Kociołek – Balawejder E, Wilk Ł. (2012b). Sulfides in aqueous enviroment. Part 1. Preventing theformation. Przemysł chemiczny. 91/12, 2339 – 2344
  • 12. Kotulska M., Ozonek J. 2006. Treatment of tanning sewage on biological submerged foundation. Gaz, woda i technika sanitarna, 12, 29–33.
  • 13. Kowalik A., Kluziński W., Gierycz P. 2009. Microfiltration and ultrafiltration of tannery wastewaters. Problemy eksploatacji, 1, 135–144.
  • 14. Lofrano G, Meriç S, Inglese M, Nikolaou AD, Belgiorno V. (2010) Fenton oxidation treatment of tannery wastewater and tanning agents: synthetic tannin and nonylphenol ethoxylate based degreasing agent. Desalination Water Treat.23,1.
  • 15. Lofrano G, Meriç S, Zengin GE, Orhon D.2013. Chemical and biological treatment technologies for leather tannery chemicals and wastewater: A review. Science of the Total Environment, 461–462, 265.
  • 16. Mandal T., Dasgupta D., Mandal S., Datta S. 2010. Treatment of leather industry wastewater by aerobic biological and Fenton oxidation process. Journal of Hazardous Materials, 180, 204–211.
  • 17. Mendrycka M., Stawarz M. 2012. Possibilities of applications of biocomponent for biological processes of tanning sewage by activated sludge-aided method. Inżynieria Ekologiczna, 28, 43–56.
  • 18. Naumczyk J., Rusiniak M. 2005. Physicochemical and chemical purification of tannery wastewaters. Polish Journal of Environmental Studies 14 (6), 789–797.
  • 19. Neyens E., Baeyens J., 2003. A review of classic Fenton’s peroxidation as an advanced oxidation technique. Journal of Hazardous Materials. 98 (1–3), 33–50.
  • 20. Przywara L. 2017. Application of Fenton’s process for treatment of tannery wastewater Inżynieria Ekologiczna,18, 117–122
  • 21. Rameshraja D., Suresh S. 2011 .Treatment of Tannery Wastewater by Various Oxidation and Combined Processes Review. J. Environ. Res. 5(2), 349360.
  • 22. Schrank S.G., Jose H.J., Moreira R.F.P.M., Schroder H.F.2004. Comparison of different Advanced Oxidation Process to reduce toxicity and mineralization of tannery wastewater. Water Science Technology, 50 (5), 329–334.
  • 23. Schrank S.G., Jose H.J., Moreira R.F.P.M., Schroder H.F.2005. Applicability of Fenton and H2O2/ UV reactions in treatment of tannery wastewater. Chemosphere 60, 644–655
  • 24. Song Z., Williams C.J, Edyvean R.G.J. 2001. Coagulation and anaerobic digestion of tannery wastewater. Trans IChemE. 79, 23–28.
  • 25. Song Z., Williams C.J, Edyvean R.G.J. 2004.Treatment of tannery wastewater by chemical coagulation. Desalination 164, 249–259
  • 26.Xing M.Y., Can D., Godefraid B., Yang J. 2006. Treatment of pharmaceutical wastewater containing recalcitrant compounds in a Fenton-coagulation process. Journal of Environmental Since, 18(3), 459–463.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-604ac998-bac3-48bd-b448-4195f2c6f562
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