Abstract
A novel chitosan immobilization technique that entraps photocatalyst and microbes was developed and applied to decompose decabromodiphenyl ether (BDE-209) in a clay slurry microcosm. The optimized conditions for immobilization were obtained by mixing 1.2% (w/v) chitosan dissolved in 1% (v/v) acetic acid with nano-TiO2 particles and the BDE-209-degrading bacterial mixed culture. This aqueous mixture was injected into 1% (w/v) water solution containing sodium tripolyphosphate to form spherical immobilized beads. The surface of the immobilized beads was reinforced by 0.25% (v/v) glutaraldehyde cross-linking. These beads had enough mechanical strength during BDE-209 degradation to maintain their shape in the system at a stirring rate of 200-rpm, while undergoing continuous 365 nm UVA irradiation. This novel TiO2-Yi-Li immobilized chitosan beads system allowed a successful simultaneous integration of photolysis, photocatalysis and biodegradation to remove BDE-209. The remaining percentage of BDE-209 was 41% after 70 days of degradation using this system. The dominant bacteria in the BDE-209-degrading bacterial mixed culture during remediation were Chitinophaga spp., Methyloversatilis spp., Terrimonas spp. and Pseudomonas spp. These bacteria tolerated the long-term UVA irradiation and high-level free radicals present, while utilizing BDE-209 as their primary carbon resource. This new method has great potential for the treatment of a range of pollutants.
Highlights
Microbial bioremediation is considered to be an effective and environmentally friendly method for treating many emerging contaminants (ECs) present in soil and aquatic systems [1]
These results indicated there was no absorption of methyl blue (MB) onto the TiO2 immobilized chitosan beads over 24 h, and the degradation was brought about by TiO2 photocatalysis
This study describes the development and characterization of a novel immobilization technique whereby TiO2 and a BDE-209-degrading bacterial mixed culture are trapped in chitosan beads
Summary
Microbial bioremediation is considered to be an effective and environmentally friendly method for treating many emerging contaminants (ECs) present in soil and aquatic systems [1]. Polybrominated diphenyl ethers (PBDEs) have been identified as a class of ECs of great concern since they began to be used and they are still being used as brominated flame retardants in many industrial products worldwide. This means that their congeners are widely distributed in many environments [2].
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