화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of the Korean Industrial and Engineering Chemistry, Vol.13, No.7, 728-734, November, 2002
Export Citation
오존과 초음파에 의한 도시하수슬러지의 처리 특성
Characteristics of Waste Sewage Sludge Treated by Ultrasound and Ozone
윤용수, 배철호1, 최석순2
  • 단국대학교 화학공학과, 서울 140-714
  • 1환경관리공단, 인천 404-170
  • 2세명대학교 환경공학과, 제천 390-711
Yong Soo Yoon, Chul Ho Bae1, and Suk Soon Choi2
  • Department of Chemical Engineering, Dankook University, Seoul 140-714, Korea
  • 1Department of Development Assistance II, Environmental Management Corporation, Incheon 404-170, Korea
  • 2Department of Environmental Engineering, Semyung University, Jecheon 390-711, Korea
E-mail:
초록
본 연구에서는 오존과 초음파를 이용하여 도시하수 처리장에서 발생하는 슬러지를 처리하고, 처리 전·후의 슬러지 특성을 비교·검토함으로써 오존과 초음파의 이용 가능성에 대하여 확인하였다. 초기 MLSS농도가 7233 mg/L인 슬러지 중에 존재하는 용해성 유기물의 용출속도상수(k)는 초음파 처리 경우에 0.297 min-1, 오존처리 경우에 0.102 min-1로 나타났다. 슬러지의 파괴에 의해 용출되는 유기물의 양을 확인하기 위하여 SCOD, SBOD를 분석하였으며, 영양염류인 총질소와 총인의 용출에 대하여 고찰하였다. 초음파처리에 의해 MLSS 1 g당 SCOD와 SBOD는 각각 0.127 g, 0.181 g이 용출되었으며, T-N과 T-P는 각가가 0.038 g, 0.039 g이 용출되었다. 또한 오존처리시에는 SCOD와 SBOD는 각각 0.038 g, 0.058 g이 용출되었으며, T-N과 T-P는 각각 0.011 g, 0.012 g이 용출되었다. 그리고 슬러지의 생분해 가능성의 상대적인 척도가 되는 SBOD/TCOD비는 MLSS농도가 5733 mg/L인 슬러지의 경우 초기 0.024에서 초음파와 오존처리된 후에 각각 0.51과 0.21로 크게 증가되었다.
In this Study, ozone and ultrasound were adopted for the treatment of waste sludge from the municipal sewage treatment, plant, and the properties of the treated sludge and that of the raw sludge were compared. For the waste sludge with MLSS concentration of 7233 mg/L, the degradation rate constants of dissolved organic matters were 0.297 min-1and 0.102 min-1 for ultrasound treatment and ozone treatment, respectively. To evaluate the characteristics of the released organic matters and nutrient by sludge degradation in the ultrasound treatment, SCOD, SBOD, T-N and T-P were analyzed. It was found that 0.127 g of SCOD, 0.181 g of SBOD, 0.038 g of T-N and 0.039 g of T-P were released per g of MLSS, respectively. In the case of ozone treatment, the quality of released of SCOD, SBOD, T-N and T-P were 0.038 g, 0.058 g, 0.011 g and 0.012 g per g of MLSS, respectively. In addition, the SCOD/TCOD, relative index of sludge biodegradation was enhanced to 0.51 with ultrasound treatment and 0.21 with ozone treatment from initial value of 0.024 in waste sludge with MLSS concentration of 5733 mg/L.
Keywords:ultrasound;ozone;municipal sewage sludge;sludge biodegradation
  1. Weemaes MPJ, Verstraete WH, J. Chem. Technol. Biotechnol., 73(2), 83 (1998) 
  2. 환경부, 환경통계연감 (2001)
  3. 경기개발연구원, 경기도 하수처리장 슬러지 처분 및 자원화 방안에 관한 연구 (1998)
  4. Ganales A, Pareilleux A, Huyard A, Water Sci. Technol., 30, 97 (1994)
  5. Pavlostathis SG, Gossett JM, Biotechnol. Bioeng., 28, 1519 (1986) 
  6. Harrison ST, Biotechnol. Adv., 9, 217 (1991) 
  7. Hatziconstantinou GJ, Yannakopolos P, Andreadakis A, Water Sci. Technol., 34(1-2), 417 (1996) 
  8. Barlindhaug J, Water Sci. Technol., 33(12), 99 (1996) 
  9. Tanaka S, Kobayashi T, Kamiyama K, Bildan ML, Water Sci. Technol., 35(8), 209 (1997) 
  10. Song JJ, Takeda N, Hiraoka M, Water Sci. Technol., 26, 867 (1992)
  11. Bien JB, Wolny L, Water Sci. Technol., 36(11), 101 (1997) 
  12. Neppiras EA, Phys. Rep., 61, 159 (1980) 
  13. Yasui H, Shibata M, Water Sci. Technol., 30(9), 11 (1994)
  14. Timothy JM, Phillip LJ, Sonochemistry (1988)
  15. Gorczyca B, Ganczarczyk JJ, J. Can. Water Quality Res., 36(4), 687 (2001)
  16. Martel CJ, Diener CJ, Sludge Dewatering in a Freezing Bed, a Pilot Scale Study, U.S. Army Cold Regions REsearch and Engineering Laboratory, CRREL Report 91-6 (1991)
  17. Monnier H, Wilhelm AM, Delmas H, Chem. Eng. Sci., 54(13-14), 2953 (1999) 
  18. Staehelln J, Holgn J, Environ. Sci. Technol., 19, 1206 (1985) 
  19. Hewes CG, Davison RR, AIChE J., 17(1), 141 (1971) 
  20. Glaze WH, Kang JW, Chapin DH, Ozone Sci. Eng., 9(4), 335 (1987)
  21. Shimizu T, Kudo K, Nasu Y, Water Waste, 34(3), 221 (1992)
  22. Tiehm A, Nickel K, Neis U, Water Sci. Technol., 36(11), 121 (1997) 
  23. Weemaes M, Grootaerd H, Simoens F, Verstraete W, Water Res., 34(8), 2330 (2000) 
  24. Chu CP, Chang BV, Liao GS, Jean DS, Lee DJ, Water Res., 35(4), 1038 (2001) 
  25. European Environment Agency, Sludge Treatment and Disposal (1997)
  26. Tiehm A, Nickel K, Zellhorn M, Neis U, Water Res., 35(8), 2003 (2001) 
  27. Scheminski A, Krull R, Hempel DC, Water Sci. Technol., 42(9), 151 (2000)
  28. Weemaes M, Grootaerd H, Simoens F, Huysmans A, Verstraete W, Water Sci. Technol., 42(9), 175 (2000)
  29. Tiehm A, TU Hamburg Reports on Sanitary Engineering (1999)
  30. Siegrist H, Water Sci. Technol., 34(1-2), 399 (1996)