Yıl 2019,
, 810 - 816, 01.10.2019
Tijen Ennil Bektas
,
Filiz Eren
Kaynakça
- REFERENCES [1] WHO, “Sulfate in drinking water,” Guidelines for Drinking Water Quality, 2004.
- [2] US EPA, “Health effects from exposure to high levels of sulfate in drinking water study,”1999.
- [3] Regulation For Water Pollution Control, Official Gazette Published, No: 25687, 31/12/2004.
- [4] C. Namasivayam and D. Sangeetha, “Application of coconut coir pith for the removal of sulfate and other anions from water,” Desalination, vol. 219, no. 1, pp. 1-13, 2008.
- [5] F. İncetan, “ Removal of natural organic matters and sulfate from surface from surface water sources by MIEX resin” Master Thesis, Erciyes University, Institute of Science, Department of Environmental Engineering, 2011.
- [6] A. Karabacak, “Sulphate removal by nanofiltration from water” Master Thesis, Middle East Technical University, Institute of Science, Department of Environmental Engineering, 2010.
- [7] X. Wang, Y. Song and J. Mai, “Combined fenton oxidation and aerobic biological processes for treating a surfactant wastewater containing abundant sulfate,” Journal of Hazardous Materials, vol. 160, pp. 344-348, 2008.
- [8] D. Duranoğlu, “Sulfate removal from wastewater by chemical precipitation method,” Journal of Engineering and Natural Sciences, vol. 30, pp. 39-55, 2011.
- [9] P. G. Klepetsanis and P.G. Koutsoukos, “Precipitation of calcium sulfate dehydrate at constant calcium activity,” J. Cryst. Growth, vol. 98, pp. 480-486, 1989.
- [10] I. Kabdaşlı, A. Bilgin and O. Tünay, “Sulphate control by ettringite precipitation in textile industry wastewaters,” Environmental Technology, vol. 37, no.4, pp. 446-451, 2016.
- [11] O. Levenspiel, "Chemical Reaction Engineering", 1 Edn, Wiley, New York, 1972.
- [12] J. L. Cortina and A. Warshawsky, "Developments - in solid-liquid extraction by solvent impregınated resins,” lon Exchange and Solvent Extraction, L.A. Marinsky and Y. Marcus (Eds.), Vol. 13, Marcel Dekker, Inc, New York, 1997.
- [13] J. L. Cortina, A. Warshawsky, N. Kahara, V. Kampel, C.H. Sampaio and R. M.Kautzmann, "Kinetics of gold cyanide extraction using ion-exchange resins containing piperazine functionality," React. Funct. Polym., vol. 54, pp. 25-35, 2003.
- [14] M. Badruk, N. Kabay, M. Demircioglu, H. Mordoğan and U. Ipekoglu, "Removal ofboron from wastewater of geothermal power plant by selective ion-exchange resins. I. Batch sorption-elution studies," Separ. Sci. Technol., vol. 34, pp. 2553-2569, 1999.
- [15] R. Boncukoğlu, A. E. Yılmaz, M. M. Kocakerim and M. Çopur, "An empirical model far kinetics of baron removal from boron-containing wastewaters by ion exchange in a batch reactor,” Desalination, vol. 160, pp. 159-166, 2004.
- [16] Z. Aksu and F. Gönen, "Biosorption of phenol by immobilized activated sludge in continuous packed bed: prediction ofbreakthrough curves," Process Biochem., vol. 39, pp. 599-613, 2004.
- [17] H. C. Thomas, “Heterogeneous ion exchange in a flowing system,” J. Am. Chem. Soc., vol. 66, pp. 1664-1666, 1944.
- [18] Y. H. Yoon and J. H. Nelson, “Application of gas adsorption kinetics. I. A theoretical model for respirator cartridge service time,” Am. Ind, Hyg. Assoc. J., vol. 45, pp.509-516, 1984.
Batch and Column Studies for Removal of Sulphate from Real Wastewater Using Ion Exchange Resin
Yıl 2019,
, 810 - 816, 01.10.2019
Tijen Ennil Bektas
,
Filiz Eren
Öz
In this
study, sorption potential of anion exchange resin (Lewatit Monoplus M600) to
remove sulphate from real wastewater was investigated. Kinetic studies were
performed in batch experiments. A comparison of kinetic models applied to the
sorption of sulphate onto resin was evaluated for the "infinite solution volume model" and
"unreacted core model". Rate-determining step is the liquid film control
step of the unreacted core model. When pH values increased above 9, more than
80% sulphate removal was observed. Column sorption-elution experiments were
performed for the removal of the sulphate from the wastewater by resin. The
Thomas and the Yoon-Nelson models were applied to experimental data to
determine the characteristic column parameters.
Kaynakça
- REFERENCES [1] WHO, “Sulfate in drinking water,” Guidelines for Drinking Water Quality, 2004.
- [2] US EPA, “Health effects from exposure to high levels of sulfate in drinking water study,”1999.
- [3] Regulation For Water Pollution Control, Official Gazette Published, No: 25687, 31/12/2004.
- [4] C. Namasivayam and D. Sangeetha, “Application of coconut coir pith for the removal of sulfate and other anions from water,” Desalination, vol. 219, no. 1, pp. 1-13, 2008.
- [5] F. İncetan, “ Removal of natural organic matters and sulfate from surface from surface water sources by MIEX resin” Master Thesis, Erciyes University, Institute of Science, Department of Environmental Engineering, 2011.
- [6] A. Karabacak, “Sulphate removal by nanofiltration from water” Master Thesis, Middle East Technical University, Institute of Science, Department of Environmental Engineering, 2010.
- [7] X. Wang, Y. Song and J. Mai, “Combined fenton oxidation and aerobic biological processes for treating a surfactant wastewater containing abundant sulfate,” Journal of Hazardous Materials, vol. 160, pp. 344-348, 2008.
- [8] D. Duranoğlu, “Sulfate removal from wastewater by chemical precipitation method,” Journal of Engineering and Natural Sciences, vol. 30, pp. 39-55, 2011.
- [9] P. G. Klepetsanis and P.G. Koutsoukos, “Precipitation of calcium sulfate dehydrate at constant calcium activity,” J. Cryst. Growth, vol. 98, pp. 480-486, 1989.
- [10] I. Kabdaşlı, A. Bilgin and O. Tünay, “Sulphate control by ettringite precipitation in textile industry wastewaters,” Environmental Technology, vol. 37, no.4, pp. 446-451, 2016.
- [11] O. Levenspiel, "Chemical Reaction Engineering", 1 Edn, Wiley, New York, 1972.
- [12] J. L. Cortina and A. Warshawsky, "Developments - in solid-liquid extraction by solvent impregınated resins,” lon Exchange and Solvent Extraction, L.A. Marinsky and Y. Marcus (Eds.), Vol. 13, Marcel Dekker, Inc, New York, 1997.
- [13] J. L. Cortina, A. Warshawsky, N. Kahara, V. Kampel, C.H. Sampaio and R. M.Kautzmann, "Kinetics of gold cyanide extraction using ion-exchange resins containing piperazine functionality," React. Funct. Polym., vol. 54, pp. 25-35, 2003.
- [14] M. Badruk, N. Kabay, M. Demircioglu, H. Mordoğan and U. Ipekoglu, "Removal ofboron from wastewater of geothermal power plant by selective ion-exchange resins. I. Batch sorption-elution studies," Separ. Sci. Technol., vol. 34, pp. 2553-2569, 1999.
- [15] R. Boncukoğlu, A. E. Yılmaz, M. M. Kocakerim and M. Çopur, "An empirical model far kinetics of baron removal from boron-containing wastewaters by ion exchange in a batch reactor,” Desalination, vol. 160, pp. 159-166, 2004.
- [16] Z. Aksu and F. Gönen, "Biosorption of phenol by immobilized activated sludge in continuous packed bed: prediction ofbreakthrough curves," Process Biochem., vol. 39, pp. 599-613, 2004.
- [17] H. C. Thomas, “Heterogeneous ion exchange in a flowing system,” J. Am. Chem. Soc., vol. 66, pp. 1664-1666, 1944.
- [18] Y. H. Yoon and J. H. Nelson, “Application of gas adsorption kinetics. I. A theoretical model for respirator cartridge service time,” Am. Ind, Hyg. Assoc. J., vol. 45, pp.509-516, 1984.