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Cu(II) İyonlarının Sulu Çözeltilerden Poli(Vinil Pirilidon)-Poli(Vinil Alkol)/Selüloz Membranlarla Ayrılması

Year 2020, , 248 - 254, 13.03.2020
https://doi.org/10.17798/bitlisfen.550375

Abstract

Bu çalışmada
Cu(II) iyonlarının sulu ortamdan uzaklaştırılması kesikli karıştırıcılı
ultrafiltrasyon hücresi ile yapılmıştır. Bu çalışmada
poli(vinil
pirilidon)-poli(vinil alkol)/Sel
üloz membranları
kullanılmıştır. Aljinik asit polimerleri tutulmayı arttırma amacıyla kompleks
ajan olarak kullanılmıştır. Cu(II)’nin sulu çözeltileri değişik pH, basınç ve
çözelti derişimleri ile filtre edilmiştir. Cu(II) için en uygun tutulma
değeri  % 2 (m/v)
poli(vinil
pirilidon)-
%
2 (m/v)
poli(vinil
alkol)/Sel
üloz membranları
kullanılarak AA varlığında pH 6’ da, 30 psi basınçta,
0,5x10-4 M Cu(II)
konsantrasyonda
ve
400 devir/dakika karıştırma hızında 82,9 % 
olarak bulunmuştur.

References

  • 1. Lastra A., Gomeza D., Romerob J., Francisco J.L., Luque S., Alvarez J.R. 2004. Removal of metal complexes by nanofiltration in a TCF pulp mill: technical and economic feasibility, Journal of Membrane Science, 242: 97-105.
  • 2. Gzara L., Dhahbi M. 2001. Removal of chromate anions by micellar-enhanced ultrafiltration using cationic surfactants, Desalination, 137: 241-250.
  • 3. Judd S.J. 2017. Membrane technology costs and me, Water Research, 122: 1-9.
  • 4. Çifci C. and Kaya A. 2010. Preparation of poly(vinyl alcohol)/cellulose composite membranes for metal removal from aqueous solutions, Desalination, 253: 175-179.
  • 5. Dhodapkar R.S., Pophali G.R., Nandy T.N., Devotta S. 2007, Exploitation results of seven RO plants for recovery and reuse of treated effluents in textile industries, Desalination (1-3): 291-300.
  • 6. Neelakandan C., Pugazhenthi G., Kumar A. 2003. Preparation of NOx modified PMMA-EGDM composite membrane for the recovery of chromium (VI), European Polymer Journal, 39: 2383-2391.
  • 7. Chen S.H., Wu B.H., Fu J.C., Wang G.J., Wan L.S., Xu Z.K. 2018. Vertically oriented microporous membranes prepared by bidirectional freezing, Chinese Journal of Polymer Science, 36: 880-887.
  • 8. Vazquez-Palma D.E., Netzahuatl-Munoz A.R., Pineda-Camacho G., Cristiani-Urbina E. 2017. Biosorptive removal of nickel(II) ions from aqueous solutions by hass avocado (persea americana mill. Var. Hass) shell as an effective and low-cost biosorbent, Fresenius Environmental Bulletin, 26: 3501-3513.
  • 9. Al-Asheh S., Banat F., Mohai F. 1999. Sorption of copper and nickel by spent animal bones, Chemosphere, 39(12): 2087-2096.
  • 10. Chang D. J. ve Hwang S.J. 1996. Removal of metal ions from liquid solutions by cross flow microfiltration, Separation Science and Technology, 31: 1831–1842.
  • 11. Kozlowski C.A., Walkowiak W. 2002. Removal of chromium(VI) from aqueous solutions by polymer inclusion membranes ,Water Research, 36: 4870-4876.
  • 12. Çifci C., Mavili F. 2019. Preparation of poly(vinyl pyrrolidone)-poly(vinyl alcohol)/cellulose composite membranes and its application for removing of Fe(III) ions, Fresenius Environmental Bulletin, In press.
Year 2020, , 248 - 254, 13.03.2020
https://doi.org/10.17798/bitlisfen.550375

Abstract

References

  • 1. Lastra A., Gomeza D., Romerob J., Francisco J.L., Luque S., Alvarez J.R. 2004. Removal of metal complexes by nanofiltration in a TCF pulp mill: technical and economic feasibility, Journal of Membrane Science, 242: 97-105.
  • 2. Gzara L., Dhahbi M. 2001. Removal of chromate anions by micellar-enhanced ultrafiltration using cationic surfactants, Desalination, 137: 241-250.
  • 3. Judd S.J. 2017. Membrane technology costs and me, Water Research, 122: 1-9.
  • 4. Çifci C. and Kaya A. 2010. Preparation of poly(vinyl alcohol)/cellulose composite membranes for metal removal from aqueous solutions, Desalination, 253: 175-179.
  • 5. Dhodapkar R.S., Pophali G.R., Nandy T.N., Devotta S. 2007, Exploitation results of seven RO plants for recovery and reuse of treated effluents in textile industries, Desalination (1-3): 291-300.
  • 6. Neelakandan C., Pugazhenthi G., Kumar A. 2003. Preparation of NOx modified PMMA-EGDM composite membrane for the recovery of chromium (VI), European Polymer Journal, 39: 2383-2391.
  • 7. Chen S.H., Wu B.H., Fu J.C., Wang G.J., Wan L.S., Xu Z.K. 2018. Vertically oriented microporous membranes prepared by bidirectional freezing, Chinese Journal of Polymer Science, 36: 880-887.
  • 8. Vazquez-Palma D.E., Netzahuatl-Munoz A.R., Pineda-Camacho G., Cristiani-Urbina E. 2017. Biosorptive removal of nickel(II) ions from aqueous solutions by hass avocado (persea americana mill. Var. Hass) shell as an effective and low-cost biosorbent, Fresenius Environmental Bulletin, 26: 3501-3513.
  • 9. Al-Asheh S., Banat F., Mohai F. 1999. Sorption of copper and nickel by spent animal bones, Chemosphere, 39(12): 2087-2096.
  • 10. Chang D. J. ve Hwang S.J. 1996. Removal of metal ions from liquid solutions by cross flow microfiltration, Separation Science and Technology, 31: 1831–1842.
  • 11. Kozlowski C.A., Walkowiak W. 2002. Removal of chromium(VI) from aqueous solutions by polymer inclusion membranes ,Water Research, 36: 4870-4876.
  • 12. Çifci C., Mavili F. 2019. Preparation of poly(vinyl pyrrolidone)-poly(vinyl alcohol)/cellulose composite membranes and its application for removing of Fe(III) ions, Fresenius Environmental Bulletin, In press.
There are 12 citations in total.

Details

Primary Language Turkish
Journal Section Araştırma Makalesi
Authors

Cemal Çifci 0000-0001-9410-211X

Funda Mavili This is me

Publication Date March 13, 2020
Submission Date April 7, 2019
Acceptance Date July 23, 2019
Published in Issue Year 2020

Cite

IEEE C. Çifci and F. Mavili, “Cu(II) İyonlarının Sulu Çözeltilerden Poli(Vinil Pirilidon)-Poli(Vinil Alkol)/Selüloz Membranlarla Ayrılması”, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi, vol. 9, no. 1, pp. 248–254, 2020, doi: 10.17798/bitlisfen.550375.



Bitlis Eren Üniversitesi
Fen Bilimleri Dergisi Editörlüğü

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