Journal of Korean Society of Water and Wastewater (상하수도학회지)

The Korean Society of Water and Wastewater (대한상하수도학회)
권호 표지

Pre-Coagulation and Pre-Ozonation for Ozone Resisting Microfiltration Membrane Filtration System of a High Humic Contained Surface Water

고농도 휴믹성분이 포함된 강 원수에서 응집-침전 및 오존 공정을 전처리로 적용한 오존 내성막 pilot plant에서의 운전성 및 투과수 수질변화에 관한 연구

  • 이상협 (한국과학기술연구원 환경공정연구부 수질환경 및 복원연구센터) ;
  • 와타나베 요시마사 (일본 국립북해도대학대학원 공학연구과 도시환경공학전공 환경위생공학강좌) ;
  • 이석헌 (한국과학기술연구원 환경공정연구부 수질환경 및 복원연구센터) ;
  • 안규홍 (한국과학기술연구원 환경공정연구부 수질환경 및 복원연구센터)
  • Received : 2004.05.24
  • Accepted : 2004.10.06
  • Published : 2004.10.15
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Abstract

In this study, the effects of two pre-treatment processes were observed prior to membrane filtration: pre-coagulation and pre-ozonation. To compare the effect of two above-mentioned pre-treatments, we adopted the four schemes: first one is direct membrane filtration of river surface water, second one is membrane filtration after pre-coagulation, third one is membrane filtration after pre-ozonation and fourth one is membrane filtration after pre-coagulation and pre-ozonation. There are two exceptional characteristics in applied processes. One is the usage of the MF membrane which has high ozone resisting characteristic. Therefore, ozone resides in membrane module during filtration. The other is adoption of Jet Mixed Separator (JMS) as coagulation-sedimentation process. The change in transmembrane pressure and permeate water quality were also examined. As a result, considering the filtration performance efficiency and permeate water quality, the process composed of filtration with combination of both pre-coagulation and pre-ozonation was proved most effective. The improved efficiency was due to the reduction of loading rate of fouling inducing materials to membrane module by coagulation process as well as variable reactions, such as degradation, particle destabilization and coagulation, occurred by residual ozone in membrane module. The additional effect of pre-coagulation before pre-ozonation is suppression of AOC, one of the by-products induced by ozonation. Therefore, combination of pre-coagulation and pre-ozonation is the effective process to overcome the major de-merit of ozonation i.e. by-products formation.

Keywords

References

  1. Connel, H., Zhu, J. and Bassi. (1999) A Effect of particle shape on crossflow filtration flux, Journal of Membrane Science, 153, pp. 121-139
  2. Isabel, C. E. and Andrew, A. R. (2001) Assimilable organic carbon (AOC) and biodegradabel dissolved organic carbon (BDOC): complementary measurements, Water Research, 35(18), pp. 4444-4454
  3. Jekel, M. R. (1994) Flocculation effects of ozone, Ozone science and engineering, 16, pp. 55-66
  4. Mori, Y., Oota, T., Hashino, M., Takamura, M. and Fujii, Y. (1998) Ozone-microfiltration system, Desalanation., 117, pp, 211-218
  5. Nilsson, J. L. (1990) Protein fouling of UF membrane: cause and consequences, Journal of Membrane Science, 52, pp. 121-141
  6. Nystrom, M., Ruhomaki, K. and Kaipia, L. (1996) Humic acid as a fouling agent in filtration, Desalination, 106, pp. 79-87
  7. Orlandini, E. J., Kruithof, C, van der Hoek, J. P., Siebel, M. A. and Schippers, J. C. (1997) Impact of ozonation on disinfection and formation of biodegradable matter and bromate, Journal Water SRT-Aqua, 46, pp. 20-30
  8. Park, Y. G. (2002) Effect of Ozonation for reducing membrane-fouling in the UF membrane, Desalanation, 147, pp. 43-48
  9. Paode, R. D., Chandrakanth, M. S. and Amy, G. L. (1995) Ozone verus ozone/peroxide induced particle destabilization and aggregation:A pilot study, Ozone science and engineering, 17, pp. 25-51
  10. Stevenson, F. J. (1983) Geochemistry of soil humic substances, In Aquatic and Terrestrial Humic Materials, eds. Christman, R. F. and Gjessing, E. T. pp. 13-51. Ann Arbor Science. Ann Arbor, MI
  11. Takizawa, S., Fujita, K., Kim, H. S. (1996) Membrane fouling decrease bt microfiltration with ozone scrubbing, Desalination, 106, pp. 423-426
  12. Van der kooij, D. and Veenendaal, H. R. (1995) Determination of the concentration of easily assimilable organic carbon (AOC) in drinking water growth measurements using pure bacterial cultures, KIW A AOC MANUAL., pp. 1-76
  13. Watanabe, Y., Kasahara, S., Iwasaki, Y. (1998) Enhanced Flocculation/Sedimentation Process by a Jet Mixed Separator, Wate. Science and Technology, 37(10), pp. 55-67 https://doi.org/10.1016/S0273-1223(98)00298-4
  14. Watanabe, Y., Hashimoto, K., Hasegawa., T., Kameda., S., Suzuki, H. (1998) Application of Poly silicato-Iron to Coagulation of Algae and Municipal Wastewater, Chemical Water and Wastewater Treatment V, pp. 3-13
  15. Yoon, S. H., Lee, C. H., Kim, K. j. and Fane, A. G. (1998)Effect of calcium ion on the fouling of nanofilter by humic acid in drinking water production, Water Research, 32(7), pp. 2180-2186
  16. 吉田降(2000) 體を利用した新しい水處理. 株式會社エヌ デイ-エス, pp.263-285
  17. 渡辺義公(2003) 水道における體ろ過技術の望- 日本の驗から. 물환경공학회 막분리분과 2 차 세미나 자료집 - 膜: 정수처리의 새로운 전환. 2003. 6 . 20 ( 서울 . COEX). pp. 3-10
  18. 渡辺義公(2000) 膜を用いた爭水システム-特 と現狀, 水 道協會雜誌, 第69券 , 第9號. pp.2-9
  19. 張洛陳(2001) MF體. UF體ろ過の效果的な前處理法と物理洗淨法に關する硏究, 北海道大 博士論文. pp. 53-83
  20. 澤田薰樹, 住田-郞, 松本幹治 (2000) オ ゾンを共存させた MF體ろ過におけるフありリング抑制. 水道協會雜誌, 第69券. 第7號, pp.12-21