Received date: 2005-09-20
Revised date: 2005-09-20
Online published: 2010-10-01
The research on aerobic granulation has recently been given appropriate attention. Many studies are evaluated at the bench-scale in laboratory studies, there have been few reports on its industrial application. The results of fundamentals and applications of aerobic granulation are reviewed. And the characteristics and factors influencing on aerobic granules are discussed. It is found that aerobic granular sludge is self immobilized sludge and is a special case of biofilm. Aerobic granular sludge demonstrates high settling velocities resulting in good liquid separation, high biomass retention and good activity.
Li Yuying, Li Bing, Zheng Xilai . Present state of the study on aerobic granular sludge[J]. Industrial Water Treatment, 2006 , 26(1) : 13 -16 . DOI: 10.11894/1005-829x.2006年.26(01).13
[1] Mishima K, Nakamura M. Self-immobilization of aerobic activated sludge—a pilot study of the aerobic upflow sludge blanket process in municipal sewage treatment[J]. Water Sci. Technol., 1991, 23: 981-990.
[2] Tay J H, Liu Q S, Liu Y. Microscopic observation of aerobic granu-lation in sequential aerobic sludge blanket reactor[J]. J. Appl. Mi-crobiol., 2001, 91: 168-175.
[3] Tay J H, Yang S F, Liu Y. Hydraulic selection pressure-induced nitrifying granulation in sequencing batch reactors[J]. Appl. Mi-crobiol. Biotechnol., 2002, 59: 332-337.
[4] Moy B Y P, Tay J H, Toh S K, et al. High organic loading influ-ences the physical characteristics of aerobic sludge granules[J]. Lett. Appl. Microbiol., 2002, 34: 407-412.
[5] Ohashi A, Harada H. Adhesion strength of biofilm developed in an attached-growth reactor[J]. Water Sci. Technol., 1994, 29: 10.
[6] Qin L, Tay J H, Liu Y. Selection pressure is a driving force of aer-obic granulation in sequencing batch reactors[J]. Process Biochem., 2004, 39: 579-584.
[7] Jiang H L, Tay J H, Liu Y, et al. Ca 2+ augmentation for enhance-ment of aerobically grown microbial granules in sludge blanket re-actors[J]. Biotechnol. Lett., 2003, 25: 95-99.
[8] Liu Y, Tay J H. The essential role of hydrodynamic shear force in the formation of biofilm and granular sludge[J]. Water Res., 2002, 36(24): 1 653-1 665.
[9] Peng D, Bernet N, Delgenes J P, et al. Aerobic granular sludge—a case report[J]. Water Res., 1999, 33: 890-893.
[10] Beun J J, van Loosdrecht M C M, Heijnen J J. Aerobic granula-tion[J]. Water Sci. Technol., 2000, 41: 41-48.
[11] Tay J H, Liu Q S, Liu Y. Characteristics of aerobic granules grown on glucose and acetate in sequential aerobic sludge blanket reactors[J]. Environ. Technol., 2002, 23: 931-936.
[12] Tay S T L, Ivanov V, Yi S, et al. Presence of anaerobic Bac-teroides in aerobically grown microbial granules[J]. Microb. Ecol., 2002, 44: 278-285.
[13] Toh S K, Tay J H, Moy B Y P, et al. Size-effect on the physical characteristics of the aerobic granule in a SBR[J]. Appl. Micro-biol. Biotechnol., 2003, 60: 687-695.
[14] Tay J H, Liu Q S, Liu Y. The role of cellular polysaccharides in the formation and stability of aerobic granules[J]. Lett. Appl. Mi-crobiol., 2001, 33: 222-226.
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