Combined membrane photocatalytic ozonation and wet absorption of elemental mercury

Combined membrane photocatalytic ozonation and wet absorption of elemental mercury

Membrane photocatalytic ozonization coupled with wet absorption offers potential for elemental mercury (Hg0) removal. This study reports on a novel FeTiO2-coated polyvinylidene fluoride (PVDF) wet photocatalytic membrane reactor (WPCMR) for mercury removal in flue gas. Hg0 removal efficiency in the...

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Bibliographic Details
Published in:Atmospheric pollution research Vol. 9; no. 2; pp. 230 - 237
Main Authors: Huang, Z.S., Wei, Z.S., He, Y.M., Pei, J.L., Xiao, X.L., Tang, M.R., Yu, S.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2018
Subjects:
Catalyst characterization
Elemental mercury
Fe[sbnd]TiO2/PVDF
Kinetics
Photocatalytic oxidation
Elemental mercury
Kinetics
FeTiO2/PVDF
Photocatalytic oxidation
Catalyst characterization
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Summary:Membrane photocatalytic ozonization coupled with wet absorption offers potential for elemental mercury (Hg0) removal. This study reports on a novel FeTiO2-coated polyvinylidene fluoride (PVDF) wet photocatalytic membrane reactor (WPCMR) for mercury removal in flue gas. Hg0 removal efficiency in the WPCMR reached up to 93.3%. Ozone could enhance mercury oxidation in WPCMR. Wet absorption helps to increases mercury removal efficiency. FeTiO2 catalyst was synthesized by sol-gel method and characterized by XRD, FTIR, UV–Vis, XPS and SEM. XPS analysis confirmed Hg0 oxidation to divalent mercury (Hg (II)). Elemental mercury was oxidized to mercuric oxide followed by wet absorption in the presence of OH free radical and ozone. Wet photocatalytic membrane reactor and photocatalytic membrane reactor (PCMR) of elemental mercury reaction with the FeTiO2/PVDF catalyst all follow Langmuir-Hinshelwood kinetics. •A novel wet membrane photocatalytic ozonation reactor for flue gas demercuration.•Mutual promotion between membrane photocatalytic ozonation and absorption.•Ozone could enhance mercury oxidation in WPCMR.
ISSN:1309-1042
1309-1042
DOI:10.1016/j.apr.2017.09.006