Effect of Aeration Intensity on Membrane Fouling of Non-Woven Fibers - MBR

Chun Hua Zhang; Yu Ying Dong; Hong Jie Sun

doi:10.4028/www.scientific.net/AMR.726-731.1695

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Effect of Aeration Intensity on Membrane Fouling...

Effect of Aeration Intensity on Membrane Fouling of Non-Woven Fibers - MBR

Abstract:

The influence of aeration intensity on membrane fouling in an integrated non-woven membrane bioreactors (MBR) was investigated. MBR with aeration intensity of 0.1 and 0.2m³/h was operated for artificial wastewater for 30 days. The effect of aeration intensity on quantity of extra-cellular polymeric substances (EPS), soluble EPS (EPS_S), bound EPS (EPS_B) and SUV₂₅₄ in suspension of MBR were also investigated. The results show that high aeration intensity can improve membrane fouling in certain scope. With increasing of aeration intensity, the quantity of EPS, EPS_S EPS_B and SUV₂₅₄ in suspension increase and irreversible fouling resistance also increases.

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Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

1695-1698

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.1695

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Online since:

August 2013

Authors:

Chun Hua Zhang, Yu Ying Dong, Hong Jie Sun

Keywords:

Aeration Intensity, Membrane Fouling, Non-Woven Fabrics

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References

[1] MENG Fanggang, GEN So-Rrong, DREWS Anja, et al.. water research, Vol.43 (2009), pp.1489-1512.

Google Scholar

[2] ZHANG Chunhua, YANG Fenglin, WANG Wenjun, et al..Journal of Chemical Engineering of Chinese Universities, Vol.22 (2008), pp.195-197 (In Chinese).

Google Scholar

[3] CHANG In-soung, Pierre Le Clech, Bruce Jefferson, et al.. Journal of Environmental Engineering, Vol1.2(2002), pp.1018-1029.

Google Scholar

[4] Sandra Rosenberger, Kraume Matthias. Desalination , Vol.151(2003), P195-200.

Google Scholar

[5] Pierre Le-Clech, Vicki Chen, Tony A.G. Fane. Journal of Membrane Science, Vol.284 (2006), pp.17-53.

Google Scholar

[6] WANG Zhiwei, WU Zhichao, TANG Shujuan. Water Research, Vol.43 (2009),pp.2504-2512.

Google Scholar

[7] STATE ENVIRONMENTAL PROTECTION ADMINISTRATION OF CHINA. Standard Methods for the Examination of Water and Wastewater, 3th Edition[M]. Beijing: China Environmental Science Press, 1989. pp.362-368.

Google Scholar

[8] Bo Frølund, Rikke Palmgren, Kristian Keiding, et al.. Water Research, Vol.30 (1996), pp.1749-1758.

Google Scholar

[9] MENG Fanggang, YANG Fenglin, SHI Baoqiang, et al.. Separation and Purification Technology, Vol.59 (2008), pp.91-100.

Google Scholar

[10] ZHANG Haifeng, SUN Baosheng, ZHAO Xinhua, et al.. Environmental Science, Vol.28 (2008), pp.277-2782 (In Chinese).

Google Scholar

[11] Djamila Al-Halbouni, Jacqueline Traber, Sven Lyko, et al.. Water Research, Vol.42 (2008), pp.1475-1488.

Google Scholar

[12] Sandra Rosenberger, Matthias Kraume.Desalination , Vol.151 (2003) ,pp.195-200.

Google Scholar

[13] Jorand F, Boue-Bigne F, Block J C, et al.. Water Science and Technology, Vol.37 (1998), pp.307-315.

Google Scholar