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Issue
Korean Journal of Chemical Engineering,
Vol.26, No.6, 1662-1667, 2009
Integrated anaerobic/aerobic biodegradation in an internal airlift loop reactor for phenol wastewater treatment
Zhao Z, Jiang G, Jiang S, Ding F
Anaerobic and aerobic biodegradation were integrated in an internal airlift loop reactor (IALR) by adding porous microbial carriers. In this bioreactor, aerobic activated sludge was suspended in the liquid bulk, while the anaerobic microbes were attached within the core of carriers. The integrated IALR was applied to the treatment of synthetic phenol wastewater. After 50 days’ acclimation according to co-substance strategy, the influent COD decreased from 3,700 mg/L to 400 mg/L (phenol removal rate was over 99%) with the residence time of 24 h. High performance could be achieved under the operation condition of superficial gas flow rate higher than 0.07 cm/s, temperature beyond 15 ℃ and the microbial carrier volume fraction larger than 5%. Integration of anaerobic/aerobic biodegradation in IALR enhanced the synergetic effects between aerobic and anaerobic degradation; therefore, it has great potential in the treatment of phenol wastewater and other wastewater containing hard biodegradable organics.
Keywords: Anaerobic/Aerobic Biodegradation; Porous Microbial Carriers; Internal Airlift Loop Reactor; Phenol; Wastewater Treatment
[References]
  1. Mahvi AH, Maleki A, Alimohamadi M, Ghasri A, Korean J. Chem. Eng., 24(1), 79, 2007
  2. Buitron G, Moreno-Andrade I, Perez J, Betancur MJ, Moreno JA, Water Sci. Technol., 54, 273, 2006
  3. Fang HHP, Chan O, Water Res., 31, 2229, 1997
  4. Karlsson A, Ejlertsson J, Nezirevic D, Svensson BH, Anaerobe, 5, 25, 1999
  5. Fang HHP, Liang DW, Zhang T, Liu Y, Water Res., 40, 427, 2006
  6. Subramanyam R, Mishra IM, Chemosphere, 69, 816, 2007
  7. Lee KM, Lim PE, Water Sci. Technol., 47, 41, 2003
  8. Chakraborty S, Veeramani H, Bioresour. Technol., 96(7), 761, 2005
  9. Majumder PS, Gupta SK, Bioresour. Technol., 99(8), 2930, 2008
  10. Ramos AF, Gomez MA, Hontoria E, Gonzalez-Lopez J, J. Hazard. Mater., 142(1-2), 175, 2007
  11. Uygur A, Kargi F, Proc. Biochem., 39, 2123, 2004
  12. Del Pozo R, Diez V, Water Res., 39, 1114, 2005
  13. Xing XH, Shiragami N, Unno H, J. Chem. Eng. Jpn., 28(5), 525, 1995
  14. Xing XH, Jun BH, Yanagida M, Tanji Y, Unno H, Biochem. Eng. J., 5, 29, 2000
  15. Chen SL, Li F, Qiao Y, Yang HG, Ding FX, Water Sci. Technol., 51, 75, 2005
  16. APHA, AWWA, and WEF, Standard methods for the examination of water and wastewater, 21st edn, Washington D.C., 2005
  17. Busca G, Berardinelli S, Resini C, Arrighi L, J. Hazard. Mater., 160, 265, 2008
  18. Veeresh GS, Kumar P, Mehrotra I, Water Res., 39, 154, 2005
  19. Sarfaraz S, Thomas S, Tewari UK, Iyengar L, Water Res., 38, 965, 2004
  20. Ramakrishnan A, Gupta SK, J. Hazard. Mater., 137(3), 1488, 2006
  21. Suarez-Ojeda ME, Guisasola A, Baeza JA, Fabregat A, Stuber F, Fortuny A, Font J, Carrera J, Chemosphere, 66, 2096, 2007
  22. Fan Y, Wang L, Chen J, Zhang WM, Liu Z, Ding FX, Environ. Eng. (Chinese), 18, 9, 2000
  23. Chen SL, Ding FX, Yang HG, Jiang TM, J. Tsinghua Univ. (Sci. and Tech.), 43, 746, 2003
  24. Lin CK, Tsai TY, Liu JC, Chen MC, Water Res., 35, 699, 2001
  25. Borghei SM, Hosseini SH, Proc. Biochem., 39, 1177, 2004
  26. Xing XH, Honda H, Shiragami N, Unno H, J. Chem. Eng. Jpn., 25, 89, 1992
  27. John G, Schugerl K, J. Biotechnol., 50, 115, 1996
[Cited By]
  1. Saravanan P, Pakshirajan K, Saha P, Korean Journal of Chemical Engineering, 28(7), 1550, 2011
  2. Lim JW, Ng SL, Khor SM, Seng CE, Korean Journal of Chemical Engineering, 29(7), 886, 2012
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