Method of Reducing Separation Membrane Fouling Using Microbubbles 


Vol. 29,  No. 1, pp. 31-38, Mar.  2023
10.7464/ksct.2023.29.1.31


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  Abstract

Due to water shortages caused by water pollution and climate change, total organic carbon (TOC) standards have been implemented for wastewater discharged from public sewage treatment facilities. Furthermore, there is a growing interest and body of research pertaining to the reuse of sewage treatment water as a secure alternative water resource. The membrane bio-reactor (MBR) method is commonly used for advanced wastewater treatment because it can remove organic and inorganic ions and it does not require or emit any chemicals. However, the MBR process uses a separation membrane (MF), which requires frequent film cleaning due to fouling caused by a high concentration of mixed liquor suspended solid (MLSS). In this study, process improvement and microbubble cleaning efficiency were evaluated to improve the differential pressure, water flow, and MF fouling, which are the biggest disadvantages of operating the MF. The existing MBR method was improved by installing a precipitation tank between the air tank and the MBR tank in which raw water was introduced. Microbubbles were injected into a separation membrane tank into which the supernatant water from the precipitation tank was introduced. The microbubble generator was operated with a 15 day on, 15 day off cycle for 5 months to collect discharged water samples (4L) and measure TOC. As the supernatant water from the precipitation tank flowed into the separation membrane tank, about 95% of the supernatant water MLSS was removed so the MF fouling from biological contamination was prevented. Due to the application of microbubbles to supernatant water from the precipitation tank, the differential pressure of the separation membrane tank decreased by 1.6 to 2.3 times and the water flow increased by 1.4 times. Applying microbubbles increased the TOC removal rate by more than 58%. This study showed that separately operating the air tank and the separation membrane tank can reduce fouling, and suggested that applying additional microbubbles could improve the differential pressure, water flow, and fouling to provide a more efficient advanced treatment method.

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  Cite this article

[IEEE Style]

K. Ku and Y. Kim, "Method of Reducing Separation Membrane Fouling Using Microbubbles," Clean Technology, vol. 29, no. 1, pp. 31-38, 2023. DOI: 10.7464/ksct.2023.29.1.31.

[ACM Style]

Kyung-Hwan Ku and Younghee Kim. 2023. Method of Reducing Separation Membrane Fouling Using Microbubbles. Clean Technology, 29, 1, (2023), 31-38. DOI: 10.7464/ksct.2023.29.1.31.