Skip to main content
Article
Removal of Heavy Metal Ions from Mixed Solutions via Polymer-Enhanced Ultrafiltration using Starch as a Water-Soluble Biopolymer
Environmental Progress & Sustainable Energy (2015)
Abstract

In this study, aqueous solutions containing mixtures of heavy metals namely Zn (II), Pb (II), Cr (III), and Cr (VI) were treated by polymer-enhanced ultrafiltration (PEUF) using unmodified starch as binding biopolymer. The performance of starch in removing these heavy metals was compared with that of polyethylene glycol (PEG) a commonly used polymer in PEUF processes. Rejection coefficients and flux were studied under different values of pH solution and metal ion concentrations maintaining the transmembrane pressure constant at 1.5 bar. At pH 7, and starch concentration of 0.05%, the rejection was the highest at around 90%. As metal ion concentration increased from 10 to 50 mg/L, the rejection of metal ions decreased. It was found that starch gave higher rejection for Zn (II) and Cr (III) at 0.05 g/L of polymer concentration, whereas 1 g/L of PEG concentration gave higher rejection for Cr (VI) at 10 mg/L. The influence of metal ion concentration on Pb (II) rejection is not significant for the two selected polymers. The rejection of these metal ions by starch in this study is found to be influenced by granule structure that generally behaved in a non-ionic manner. (c) 2014 American Institute of Chemical Engineers Environ Prog, 34: 359-367, 2015 Link to Full-Text Articles : http://onlinelibrary.wiley.com/doi/10.1002/ep.11995/full

Keywords
  • polymer-enhanced ultrafiltration,
  • multivalent metal ions removal,
  • complexing agents,
  • unmodified starch,
  • polyethylene glycol,
  • aqueous effluents,
  • polyacrylic-acid,
  • separation,
  • membrane,
  • recovery,
  • cadmium,
  • lead
Publication Date
March 1, 2015
Publisher Statement
Ce2fw Times Cited:0 Cited References Count:29
Citation Information
"Removal of Heavy Metal Ions from Mixed Solutions via Polymer-Enhanced Ultrafiltration using Starch as a Water-Soluble Biopolymer" Environmental Progress & Sustainable Energy Vol. 34 Iss. 2 (2015)
Available at: http://works.bepress.com/facultyofengineering_universityofmalaya/16/