Year 2020, Volume 48 , Issue 2, Pages 159 - 169 2020-04-19

A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media

Berna SARAÇOĞLU KAYA [1]


The Interpenetrating Polymer Network (IPN) structure was obtained by gamma radiation of solution of polyethylene glycol (PEG)(35000MW) in an acrylonitrile (AN) to 14 and 60kGy doses were amidoximated with hydroxylamine solution at optimum amidoximation conditions. Effects of pH (2-10) and mNi/mIPN ratio (0.002-0.5) in Ni2+adsorption were examined by batch process and optimum values were determined as 8 and 0.4 for both doses, respectively. Also, the effect of flow rate to Ni2+ adsorption was examined by the reflux flow process with a fixed-bed reactor at room temperature. Optimum flow rate is determined as 6mL/s at optimum pH. Ni2+ adsorption studies were carried out in batch (pH=6 and 8) and flow (pH=8) systems. Maximum adsorption values reached for irradiated to 14 and 60kGy doses and amidoximated IPNs were given as 105 and 99 mgNi/gIPN in batch system (pH=6), 378 and 361 mgNi/gIPN in batch system (pH=8) and 891 and 673mgNi/gIPN in flow system (pH=8), respectively. Maximum elution efficiency was obtained for HCl as being 99.5% and 66.1% for IPNs irradiated to 14 and 60kGy doses and amidoximated, respectively. FTIR results showed that HCl caused structural deformation. Minimum elution efficiency was obtained for (NH4)2CO3 as being 60.1% and 58.2% for IPNs irradiated to 14 and 60kGy, respectively, by the minimum deformation.

IPN, nickel, adsorption, elution
  • 1. H. Güler, N. Şahiner, G.A. Ayçık, O. Güven, Development of novel adsorbent materials for recovery and enrichment of uranium from aqueous media, Journal of Applied Polymer Science, 66 (1997) 2475-2480.
  • 2. J. Okamoto, T. Sugo, A. Katakai, H. Omichi, Amidoxime-group-containing adsorbents for metal ions synthesized by radiation-induced grafting, Journal of Applied Polymer Science, 30 (1985) 2967–2977.
  • 3. L. Astheimer, H.J. Schenk, E.G. Witte, K. Schwochau, Development of sorbers for the recovery of uranium from seawater. Part 2. The accumulation of uranium from seawater by resins containing amidoxime and ımidoxime functional groups, Separation Science and Technology, 18 (1983) 307-339.
  • 4. H. Bag, A.R. Turker, R. Coskun, M. Sacak, M.Yigitoglu, Determination of zinc, cadmium, cobalt and nikel by flame atomic absorption spectrometry after preconcentration by poly(ethylene terephthalate) fibers grafted with methacrylic acid, Spectrochimica Acta B, 55 (2000) 1101-1108.
  • 5. H. Egawa, T. Nanaka, M. Nakayama, Influence of crosslinking and porosity on the uranium adsorption of macroreticular chelating resin containing amidoxime groups, Journal of Macromolecular Science Chemistry A, 25 (1988) 1407-1425.
  • 6. H. Karpinnen, A. Ylipentti, Evaluation of selective ion exchange for nickel and cadmium uptake from the rinsewaters of a plating shop, Separation Science and Technology, 35 (2000) 1619-1633.
  • 7. H. Maeda, H. Egawa, Removal and recovery of nickel ion in sodium citrate solution with chelating resin containing triethylenetetramine side chain, Journal of Applied Polymer Science, 45 (1992) 173-176.
  • 8. H. Omichi, A. Katakai, T. Sugo, J. Okamoto, A new type of amidoxime-group-containing adsorbent for the recovery of uranium from seawater, Separation Science and Technology, 20 (1985) 163-178.
  • 9. H. Omichi, A. Katakai, T. Sugo, J. Okamoto, A new type of amidoxime-group-containing adsorbent for the recovery of uranium from seawater. III. Recycle use of adsorbent, Separation Science and Technology, 21 (1986) 563-574.
  • 10. H.J. Schenk, L. Astheimer, E.G. Witte, K. Schwochau, Development of sorbers for the recovery of uranium from seawater. 1. Assessment of key parameters and screening studies of sorber materials, Separation Science and Technology, 17 (1982) 1293-1308.
  • 11. A.M. Patel, R.G. Patel, M.P. Patel, Nickel and copper removal study from aqueous solution using new cationic Poly[acrylamide/N,N-DAMB/N,N-DAPB] super absorbent hydrogel, Journal of Applied Polymer Science, 119 (2011) 2485–2493.
  • 12. R. Say, A. Tuncel, A. Denizli, Adsorption of Ni2+ from aqueous solutions by novel polyethyleneimine-attached poly(p-chloromethylstyrene) beads, Journal of Applied Polymer Science, 83 (2002) 2467–2473
  • 13. E. Uguzdogan, E.B. Denkbas, O.S. Kabasakal, The use of polyethyleneglycolmethacrylate-co-vinylimidazole (PEGMA-co-VI) microspheres for the removal of nickel(II) and chromium(VI) ions, Journal of Hazardous Materials, 177 (2010) 119–125.
  • 14. D. Türkmen, V. Karakoç, L. Uzun, N. Öztürk, S. Akgöl, A. Denizli, Poly(hydroxyethyI methacrylate) Nanoparticles for Environmental Applications, Hacettepe Journal of Biology and Chemistry, 37 (2009) 157-168.
  • 15. V. Gupta, Equilibrium uptake, sorption dynamics, process development, and column operations for the removal of copper and nickel from aqueous solution and wastewater using activated slag, a low-cost adsorbent, Industrial and Engineering Chemistry Research, 3 (1998) 192-202.
  • 16. P. Ricou, I. Leayer, P. Leclairec, Influence of pH on Removal of heavy metallic cations by fly ash in aqueous solution, Environmental Technology, 19 (1998) 1005-1016.
  • 17. S. Triantafyllou, E. Christodoulou, P.N. Syngouna, Removal of nickel and cobalt from aqueous solutions by na-activated bentonite, Clay and Clay Minerals, 47 (1999) 567-572.
  • 18. C. Haktanır, Removal of Heavy Metals From Aqueus Solution Using Activated Carbon Embedded Cryogels, Hacettepe Journal of Biology and Chemistry, 45 (2017) 135-142
  • 19. Z. Aksu, Ü. Açıkel, E. Kabasakal, S. Tezer, Equilibrium modelling of individual and simultaneous biosorption of chromium(VI) and nickel(II) onto dried activated sludge, Water Research, 36 (2002) 3063-3073.
  • 20. S. Al-Asheh, F. Banat, F. Mohai, Sorption of copper and nickel by spent animal bones, Chemosphere, 39 (1999) 2087-2096.
  • 21. I. Villaescusa, M. Martinez, N. Miralles, Heavy metal uptake from aqueous solution by cork and yohimbe bark wastes, Journal of Chemical Technology and Biotechnology, 75 (2000) 812-816.
Primary Language en
Subjects Engineering
Journal Section Articles
Authors

Orcid: 0000-0003-4706-5146
Author: Berna SARAÇOĞLU KAYA (Primary Author)
Country: Turkey


Dates

Publication Date : April 19, 2020

Bibtex @research article { hjbc634459, journal = {Hacettepe Journal of Biology and Chemistry}, issn = {2687-475X}, eissn = {2687-475X}, address = {Hacettepe Üniversitesi Fen Fakültesi, 06532, Beytepe/ ANKARA/ TÜRKİYE}, publisher = {Hacettepe University}, year = {2020}, volume = {48}, pages = {159 - 169}, doi = {10.15671/hjbc.634459}, title = {A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media}, key = {cite}, author = {Saraçoğlu Kaya, Berna} }
APA Saraçoğlu Kaya, B . (2020). A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media . Hacettepe Journal of Biology and Chemistry , 48 (2) , 159-169 . DOI: 10.15671/hjbc.634459
MLA Saraçoğlu Kaya, B . "A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media" . Hacettepe Journal of Biology and Chemistry 48 (2020 ): 159-169 <https://dergipark.org.tr/en/pub/hjbc/issue/53810/634459>
Chicago Saraçoğlu Kaya, B . "A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media". Hacettepe Journal of Biology and Chemistry 48 (2020 ): 159-169
RIS TY - JOUR T1 - A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media AU - Berna Saraçoğlu Kaya Y1 - 2020 PY - 2020 N1 - doi: 10.15671/hjbc.634459 DO - 10.15671/hjbc.634459 T2 - Hacettepe Journal of Biology and Chemistry JF - Journal JO - JOR SP - 159 EP - 169 VL - 48 IS - 2 SN - 2687-475X-2687-475X M3 - doi: 10.15671/hjbc.634459 UR - https://doi.org/10.15671/hjbc.634459 Y2 - 2020 ER -
EndNote %0 Hacettepe Journal of Biology and Chemistry A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media %A Berna Saraçoğlu Kaya %T A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media %D 2020 %J Hacettepe Journal of Biology and Chemistry %P 2687-475X-2687-475X %V 48 %N 2 %R doi: 10.15671/hjbc.634459 %U 10.15671/hjbc.634459
ISNAD Saraçoğlu Kaya, Berna . "A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media". Hacettepe Journal of Biology and Chemistry 48 / 2 (April 2020): 159-169 . https://doi.org/10.15671/hjbc.634459
AMA Saraçoğlu Kaya B . A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media. HJBC. 2020; 48(2): 159-169.
Vancouver Saraçoğlu Kaya B . A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media. Hacettepe Journal of Biology and Chemistry. 2020; 48(2): 159-169.
IEEE B. Saraçoğlu Kaya , "A Polymeric Adsorbent for Removal and Recovery of Nickel from Aqueous Media", Hacettepe Journal of Biology and Chemistry, vol. 48, no. 2, pp. 159-169, Apr. 2020, doi:10.15671/hjbc.634459