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Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon

Yıl 2018, Cilt: 2 Sayı: 2, 14 - 20, 01.12.2018

Öz

In this study, treatment of
greywater from laundry washing was investigated by adsorption process with the
use of different waste material derived adsorbents. To synthesize the
adsorbents, walnut shell, seed hull, hazelnut shell and rice husk were
carbonized and then supported with polyaniline. KIO3 and K2S2O8
were used as oxidizing agents in the polymerization of aniline monomers.
Wastewater treatment efficiencies were evaluated in terms of turbidity, color
and MBAS (detergent) parameters. Adsorption experiments were conducted with 100
mL of wastewater and 1 g of adsorbent, for 2 h of reaction time, at room
temperature and mixing speed of 150 rpm. As a result of studies with different
o
xidizing agents; the highest removal efficiencies were calculated for the
PAn/RH+KIO3 adsorbent as 98%, 70% and 96% for color, turbidity and
detergent, respectively, while for the PAn/SH+K2S2O8
adsorbent they were 58%, 3% and 95% for the same
parameters.

Kaynakça

  • Reference 1: APHA, Standard Methods for the Examination of Water and Wastewater, 2005 21st edn, American Public Health Association, Washington DC, USA.
  • Reference 2: Albalawneh, A. and Chang, T. 2015. Review of the greywater and proposed greywater recycling scheme for agricultural irrigation reuses. International Journal of Research, 3(12), 16-35.
  • Reference 3: Bani-Melhem, K. and Smith, E. 2012. Grey water treatment by a continuous process of an electrocoagulation unit and a submerged membrane bioreactor system. Chemical Engineering Journal, 198–199, 201–210.
  • Reference 4: Boyjoo, Y., Pareek, V. K. and Ang, M. 2013. A review of greywater characteristics and treatment processes. Water Science & Technology, 67(7), 1403–1424.
  • Reference 5: Ding, A., Liang, H., Li, G., Szivak, I., Traber, J., Pronk, W. 2017. A low energy gravity-driven membrane bioreactor system for grey water treatment: Permeability and removal performance of organics. Journal of Membrane Science, 542, 408–417.
  • Reference 6: Gross , A., Maimon, A., Alfiya, Y. and Friedler, E. 2015. Greywater reuse, Boca Raton, London and New York, CRC Press, 283 pp.
  • Reference 7: Ghunmi, L.A., Zeeman, G., Fayyad, M., Lier, J.B. 2011. Grey water treatment systems: A review. Critical Reviews in Environmental Science and Technology, 41(7), 657- 698.
  • Reference 8: Ghunmi, L. A., Zeeman, G., Fayyad, M., B. van Lier, J. 2010. Grey water treatment in a series anaerobic – Aerobic system for irrigation. Bioresource Technology, 101, 41–50.
  • Reference 9: Hernández Leal, L., Temmink, H., Zeeman, G. and Buisman, C.J.N. 2011. Characterization and anaerobic biodegradability of grey water. Desalination, 270, 111–115.
  • Reference 10:Karahan, A. 2011. Gri Suyun Değerlendirilmesi. IX. Ulusal Tesisat MühendisliğiKongresi, 1155-1164.
  • Reference 11: Katukiza, A.Y., Ronteltap, M., Niwagaba, C.B., Kansiime, F. and Lens, P.N.L. 2014. Grey water treatment in urban slums by a filtration system: Optimisation of the filtration medium. Journal of Environmental Management, 146, 131-141.
  • Reference 12: Lamine, M., Bousselmi, L. and Ghrabi, A. 2007. Biological treatment of grey water using sequencing batch reactor. Desalination, 215, 127–132.
  • Reference 13:Lesjean, B. and Gnirss, R. 2006. Grey water treatment with a membrane bioreactor operated at low SRT and low HRT. Desalination, 199, 432–434.
  • Reference 14:Li, F., Witchmann, K., Otterpohl, R. 2009. Review of the technological approaches for grey water treatment and reuses. Science of the Total Environment, 407, 3439– 3449.
  • Reference 15:Mohammadi, M. J., Takdastan, A., Jorfi, S., Neisi, A., Farhadi, M., Yari, A. R., Dobaradaran, S., Khaniabadi, Y. O. 2017. Electrocoagulation process to Chemical and Biological Oxygen Demand treatment from carwash grey water in Ahvaz megacity, Iran. Data in Brief, 11, 634–639.
  • Reference 16:Ridderstolpe, P. 2004. Introduction to Greywater Management, Stockholm Environment Institute, Stockholm, Sweden.
  • Reference 17:Rowe, D.R. and Abdel-Magid, I.M. 1995. Handbook of Wastewater Reclamation and Reuse. CRC Press, Boca Raton, Florida.
  • Reference 18:Sanchez, M., Rivero, M.J. and Ortiz, I. 2010. Photocatalytic oxidation of grey water over titanium dioxide suspensions. Desalination, 262, 141–146.
  • Reference 19:Tchobanoglous, G., Burton, F.L., Stensel, H. D. 1991. Wastewater Engineering: Treatment and Reuse, 4th Edition, Mc Graw Hill.
Yıl 2018, Cilt: 2 Sayı: 2, 14 - 20, 01.12.2018

Öz

Kaynakça

  • Reference 1: APHA, Standard Methods for the Examination of Water and Wastewater, 2005 21st edn, American Public Health Association, Washington DC, USA.
  • Reference 2: Albalawneh, A. and Chang, T. 2015. Review of the greywater and proposed greywater recycling scheme for agricultural irrigation reuses. International Journal of Research, 3(12), 16-35.
  • Reference 3: Bani-Melhem, K. and Smith, E. 2012. Grey water treatment by a continuous process of an electrocoagulation unit and a submerged membrane bioreactor system. Chemical Engineering Journal, 198–199, 201–210.
  • Reference 4: Boyjoo, Y., Pareek, V. K. and Ang, M. 2013. A review of greywater characteristics and treatment processes. Water Science & Technology, 67(7), 1403–1424.
  • Reference 5: Ding, A., Liang, H., Li, G., Szivak, I., Traber, J., Pronk, W. 2017. A low energy gravity-driven membrane bioreactor system for grey water treatment: Permeability and removal performance of organics. Journal of Membrane Science, 542, 408–417.
  • Reference 6: Gross , A., Maimon, A., Alfiya, Y. and Friedler, E. 2015. Greywater reuse, Boca Raton, London and New York, CRC Press, 283 pp.
  • Reference 7: Ghunmi, L.A., Zeeman, G., Fayyad, M., Lier, J.B. 2011. Grey water treatment systems: A review. Critical Reviews in Environmental Science and Technology, 41(7), 657- 698.
  • Reference 8: Ghunmi, L. A., Zeeman, G., Fayyad, M., B. van Lier, J. 2010. Grey water treatment in a series anaerobic – Aerobic system for irrigation. Bioresource Technology, 101, 41–50.
  • Reference 9: Hernández Leal, L., Temmink, H., Zeeman, G. and Buisman, C.J.N. 2011. Characterization and anaerobic biodegradability of grey water. Desalination, 270, 111–115.
  • Reference 10:Karahan, A. 2011. Gri Suyun Değerlendirilmesi. IX. Ulusal Tesisat MühendisliğiKongresi, 1155-1164.
  • Reference 11: Katukiza, A.Y., Ronteltap, M., Niwagaba, C.B., Kansiime, F. and Lens, P.N.L. 2014. Grey water treatment in urban slums by a filtration system: Optimisation of the filtration medium. Journal of Environmental Management, 146, 131-141.
  • Reference 12: Lamine, M., Bousselmi, L. and Ghrabi, A. 2007. Biological treatment of grey water using sequencing batch reactor. Desalination, 215, 127–132.
  • Reference 13:Lesjean, B. and Gnirss, R. 2006. Grey water treatment with a membrane bioreactor operated at low SRT and low HRT. Desalination, 199, 432–434.
  • Reference 14:Li, F., Witchmann, K., Otterpohl, R. 2009. Review of the technological approaches for grey water treatment and reuses. Science of the Total Environment, 407, 3439– 3449.
  • Reference 15:Mohammadi, M. J., Takdastan, A., Jorfi, S., Neisi, A., Farhadi, M., Yari, A. R., Dobaradaran, S., Khaniabadi, Y. O. 2017. Electrocoagulation process to Chemical and Biological Oxygen Demand treatment from carwash grey water in Ahvaz megacity, Iran. Data in Brief, 11, 634–639.
  • Reference 16:Ridderstolpe, P. 2004. Introduction to Greywater Management, Stockholm Environment Institute, Stockholm, Sweden.
  • Reference 17:Rowe, D.R. and Abdel-Magid, I.M. 1995. Handbook of Wastewater Reclamation and Reuse. CRC Press, Boca Raton, Florida.
  • Reference 18:Sanchez, M., Rivero, M.J. and Ortiz, I. 2010. Photocatalytic oxidation of grey water over titanium dioxide suspensions. Desalination, 262, 141–146.
  • Reference 19:Tchobanoglous, G., Burton, F.L., Stensel, H. D. 1991. Wastewater Engineering: Treatment and Reuse, 4th Edition, Mc Graw Hill.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Çevre Mühendisliği
Bölüm Articles
Yazarlar

Eylem Topkaya

Sevil Veli

Ayla Arslan

Hatice Kurtkulak Bu kişi benim

Şehriban Zeybek Bu kişi benim

Çisil Gülümser

Anatoli Dimoglo

Yayımlanma Tarihi 1 Aralık 2018
Gönderilme Tarihi 24 Mayıs 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 2 Sayı: 2

Kaynak Göster

APA Topkaya, E., Veli, S., Arslan, A., Kurtkulak, H., vd. (2018). Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon. Eurasian Journal of Environmental Research, 2(2), 14-20.
AMA Topkaya E, Veli S, Arslan A, Kurtkulak H, Zeybek Ş, Gülümser Ç, Dimoglo A. Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon. EJERE. Aralık 2018;2(2):14-20.
Chicago Topkaya, Eylem, Sevil Veli, Ayla Arslan, Hatice Kurtkulak, Şehriban Zeybek, Çisil Gülümser, ve Anatoli Dimoglo. “Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported With Activated Carbon”. Eurasian Journal of Environmental Research 2, sy. 2 (Aralık 2018): 14-20.
EndNote Topkaya E, Veli S, Arslan A, Kurtkulak H, Zeybek Ş, Gülümser Ç, Dimoglo A (01 Aralık 2018) Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon. Eurasian Journal of Environmental Research 2 2 14–20.
IEEE E. Topkaya, “Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon”, EJERE, c. 2, sy. 2, ss. 14–20, 2018.
ISNAD Topkaya, Eylem vd. “Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported With Activated Carbon”. Eurasian Journal of Environmental Research 2/2 (Aralık 2018), 14-20.
JAMA Topkaya E, Veli S, Arslan A, Kurtkulak H, Zeybek Ş, Gülümser Ç, Dimoglo A. Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon. EJERE. 2018;2:14–20.
MLA Topkaya, Eylem vd. “Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported With Activated Carbon”. Eurasian Journal of Environmental Research, c. 2, sy. 2, 2018, ss. 14-20.
Vancouver Topkaya E, Veli S, Arslan A, Kurtkulak H, Zeybek Ş, Gülümser Ç, Dimoglo A. Investigation of Greywater Treatment by Adsorption Process Using Polymeric Composites Supported with Activated Carbon. EJERE. 2018;2(2):14-20.

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