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KMID : 0545120160260101746
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Journal of Microbiology and Biotechnology
2016 Volume.26 No. 10 p.1746 ~ p.1754
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Effect of the Shape and Size of Quorum-Quenching Media on Biofouling Control in Membrane Bioreactors for Wastewater Treatment
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Lee Seon-Ki
Lee Sang-Hyun
Lee Ki-Baek
Kwon Hyeok-Pil
Nahm Chang-Hyun
Lee Chung-Hak
Park Pyung-Kyu
Choo Kwang-Ho
Lee Jung-Kee
Oh Hyun-Suk
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Abstract
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Recently, spherical beads entrapping quorum quenching (QQ) bacteria have been reported as effective moving QQ-media for biofouling control in MBRs for wastewater treatment owing to their combined effects of biological (i.e., quorum quenching) and physical washing. Taking into account both the mass transfer of signal molecules through the QQ-medium and collision efficiencies of the QQ-medium against the filtration membranes in a bioreactor, a cylindrical medium (QQ-cylinder) was developed as a new shape of moving QQ-medium. The QQcylinders were compared with previous QQ-beads in terms of the QQ activity and the physical washing effect under identical loading volumes of each medium in batch tests. It was found that the QQ activity of a QQ-medium was highly dependent on its specific surface area, regardless of the shape of the medium. In contrast, the physical washing effect of a QQmedium was greatly affected by its geometric structure. The enhanced anti-biofouling property of the QQ-cylinders relative to QQ-beads was confirmed in a continuous laboratoryscale MBR with a flat-sheet membrane module.
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KEYWORD
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Membrane bioreactor, Quorum sensing, Quorum quenching, Bead, Cylinder
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