Developing an efficient TiO2-coated biofilm carrier for intimate coupling of photocatalysis and biodegradation.
Guozheng Li, Seongjun Park, Bruce E Rittmann
Index: Water Res. 46(19) , 6489-96, (2012)
Full Text: HTML
Abstract
Intimate coupling of photocatalysis and biodegradation (ICPB) shows promise to remove recalcitrant organic compounds from water, because photocatalysis breaks the compounds into biodegradable intermediates that are immediately mineralized by microorganisms inside a macroporous carrier, where they are protected from UV light and free radicals. Key to successful ICPB is a carrier capable of accumulating biofilm in its interior and strongly adhering photocatalyst on its exterior. We employed a low-temperature sintering method, the O method, to adhere TiO(2) to sponge-type macroporous carriers. The O method achieved a 7-fold increase of TiO(2) density, compared to the previously used sol-gel method, and it conserved the macropores for biofilm accumulation. Although the O-method carrier met the basic requirements of ICPB when degrading 2,4,5 trichlorophenol, it had low photocatalytic activity for breaking down more complex aromatics, like reactive dyes. Therefore, we improved the sintering method in two steps called the D and DN methods: reducing the TiO(2) concentration and then removing trimesic acid in the coating solution. The photocatalytic efficiency towards reactive black 5 increased 5 fold for the D method and 10 fold for DN method, and the DN carrier had superior TiO(2) adherence during long-term operation.Copyright © 2012 Elsevier Ltd. All rights reserved.
Related Compounds
Related Articles:
2012-01-01
[J. Anal. Toxicol. 36(9) , 608-15, (2012)]
2015-05-01
[Food Chem. 174 , 446-51, (2014)]
2011-05-01
[Aquat. Toxicol. 103(1-2) , 38-45, (2011)]
PCDD/F formation from chlorophenols by lignin and manganese peroxidases.
2014-09-01
[Chemosphere 110 , 129-35, (2014)]
2009-03-01
[Int. Arch. Occup. Environ. Health 82(4) , 519-28, (2009)]