Use of an integrated photocatalysis/hollow fiber microfiltration system for the removal of trichloroethylene in water

Kwang Ho Choo, Dae Ic Chang, Kyong Won Park, Moon Hyeon Kim

Research output: Contribution to journalArticlepeer-review

79 Scopus citations

Abstract

This work focused on the degradation of toxic organic compounds such as trichloroethylene (TCE) in water, using a combined photocatalysis/microfiltration (MF) system. The performances of the hybrid system were investigated in terms of the removal efficiency of TCE and membrane permeability, in the presence or absence of background species, such as alkalinity and humic acids. The mass balancing of the fate of TCE during photocatalytic reactions was performed in order to evaluate the feasibility of the photocatalytic membrane reactor (PMR). Greater TCE degradation (>60%) was achieved with an increase in the TiO2 dosage (up to 1.5 g/L) in PMR, but a substantially large TiO2 dosage brought about a decrease in TCE degradation efficiency. The photocatalytic decomposition of TCE appeared to be more effective in acidic pH conditions than with a neutral or alkaline pH. The addition of alkalinity and humic acid into the feedwater did not have a significant effect on TCE degradation, while humic acids (whose dose was 1 mg/L as TOC) in the feedwater played a part in a decline of permeability by 60%. Membrane permeability in the PMR was also affected by tangential velocities. An improvement of 60% in flux was achieved when the tangential velocity increased from 0.19 to 1.45 m/s. This is because flow regimes can govern the deposition of TiO2 particles on the membrane surface.

Original languageEnglish
Pages (from-to)183-190
Number of pages8
JournalJournal of Hazardous Materials
Volume152
Issue number1
DOIs
StatePublished - 21 Mar 2008

Keywords

  • Membrane fouling
  • Microfiltration
  • Photocatalytic membrane reactor (PMR)
  • TiO
  • Trichloroethylene

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