Kuba,T.,M.C.van Loosdrecht,J.J.Heijnen.Phosphorus and nitrogen with minimal COD requirement by integration of denitrifying dephosphatation and nitrification in a twosludge system\[J\].Wat.Res.,1996,30(7):1 702-1 710.
Sorm,R.,G.Bortone,R.Saltarelli,et al.Phosphate uptake under anoxic conditions and fixedfilm nitrification in nutrient removal activated sludge system\[J\].Wat.Res.,1996,30(7):1 573-1 584.
[10]
\[10\]Sorm,R.,J.Wanner,G.Bortone,et al.Verification of anoxic phosphate uptake as the main biochemical mechanism of the “dephanox process”\[J\].Wat.Sci.Tech.,1997,3 5(1):87-94.
\[15\]Yang,S.,L.F.Yang,Z.M.Fu,et al.Comparison between a moving bed membrane bioreactor and a conventional membrane bioreactor on organic carbon and nitrogen removal\[J\].Bioresource Technology,2009,100:2 369-2 374.
[16]
\[16\]Ahn,J.,T.Daido,S.Tsuneda,et al. Transformation of phosphorus and relevant intracellular compounds by a phosphorusaccumulating enrichment culture in the presence of both the electron acceptor and electron donor\[J\].Biotechnology and Bioengineering,2002,79(1):83-93.
[17]
\[17\]KerrnJespersen,J.,M.Henze.Biological phosphorus uptake under anoxic and aerobic condition\[J\].Wat.Res.,1993,27 (4):617-624.
[18]
\[18\]Lee,D.S.,C.O.Jeon,J.M.Park.Biological nirogen removal with enhanced phosphate uptake in a sequencing batch reactor using single sludge system\[J\].Wat.Res.,2001,35 (16):3 968-3 976.
[19]
\[19\]Murnleitner,E.,T.Kuba,M.C.van Loosdrecht,et al.An integrated metabolic model for the aerobic and denitrifying biological phosphorous removal\[J\].Biotechnology and Bioengineering,1997,54(5):434-450.
\[25\]Tsuneda,S.,T.Ohno,K.Soejima,et al.Simultaneous nitrogen and phosphorus removal using denitrifying phosphate accumulating organisms in a sequencing batch reactor\[J\].Biochemical Engineering Journal,2006,27(3):191-196.
\[27\]Kishida,N.,J.Kim,S.Tsuneda,et al.Anaerobic/oxic/ anoxic granular sludge process as an effective nutrient removal process utilizing denitrifying polyphosphateaccumulating organisms\[J\].Wat.Res.,2006,40:2 303-2 310.
\[29\]Wang,F.,S.Lu,Y.Wei,et al.Characteristics of aerobic granule and nitrogen and phosphorus removal in a SBR\[J\].Journal of Hazard Materials,2009,142(2-3):493-499.
\[34\]Yang,S.,F.Lin,Z.M.Fu,et al.Simultaneous nitrogen and phosphorus removal by a novel sequencing batch moving bed membrane bioreactor for wastewater treatment\[J\].Journal of Hazardous Materials,2010,175:551-557.
\[37\]Masic,A.,J.Bengtsson,M.Christensson.Measuring and modeling the oxygen profile in a nitrifying moving bed biofilm reactor\[J\].Mathematical Biosciences,2010,227 (1):1-11.
[38]
Hou,B.Z.,H.Z.Li,Q.S.Zhu.Relationship between flow structure and mass transfer in fast fluidized bed\[J\].Chemical Engineering Journal,2010,163:108-118.
\[40\]Wang,S.F.,J.Li,J.P.Suo,et al.Surface modication of porouspoly (tetrauoraethylene) film by a simple chemical oxidation treatment\[J\].Applied Surface Science,2010,256:2 293-2 298.
[41]
\[41\]Song,S.H.,S.S.Choi,K.Park,et al.Novel hybrid immobilization of microorganisms and its applications to biological denitrification\[J\].Enzyme and Microbial Technology,2005,37:567-573.
[42]
\[42\]Yan,J.,Y.Y.Hu.Partial nitrification to nitrite for treating ammoniumrich organic wastewater by immobilized biomass system\[J\].Bioresource Technology,2009,100:2 341-2 347.
