References

  1. P. Le-Clech, V. Chen, T.A.G. Fane, Fouling in membrane bioreactors used in wastewater treatment, J. Membr. Sci., 284 (2006) 17–53.
  2. R.S. Trussell, R.P. Merlo, S.W. Hermanowicz, D. Jenkins, Influence of mixed liquor properties and aeration intensity on membrane fouling in a submerged membrane bioreactor at high mixed liquor suspended solids concentrations, Water Res., 41 (2007) 947–958.
  3. H.Y. Kim, K.M. Yeon, C.H. Lee, S. Lee, T. Swaminathan, Biofilm structure and extracellular polymeric substances in low and high dissolved oxygen membrane bioreactors, Sep. Sci. Technol., 41 (2006) 1213–1230.
  4. J. Wu, P. Le-Clech, R.M. Stuetz, A.G. Fane, V. Chen, Effects of relaxation and backwashing conditions on fouling in membrane bioreactor, J. Membr. Sci., 324 (2008) 26–32.
  5. R. Habib, M.B. Asif, S. Iftekhar, Z. Khan, K. Gurung, V. Srivastava, M. Sillanpää, Influence of relaxation modes on membrane fouling in submerged membrane bioreactor for domestic wastewater treatment, Chemosphere, 181 (2017) 19–25.
  6. H. Koseoglu, N.O. Yigit, V. Iversen, A. Drews, M. Kitis, B. Lesjean, M. Kraume, Effects of several different flux enhancing chemicals on filterability and fouling reduction of membrane bioreactor (MBR) mixed liquors, J. Membr. Sci., 320 (2008) 57–64.
  7. S. Yoon, J.H. Collins, A novel flux enhancing method for membrane bioreactor (MBR) process using polymer, Desalination, 191 (2006) 52–61.
  8. S. Jamal Khan, C. Visvanathan, V. Jegatheesan, Effect of powdered activated carbon (PAC) and cationic polymer on biofouling mitigation in hybrid MBRs, Bioresource Technol., 113 (2012) 165–168.
  9. J. Hu, R. Shang, H. Deng, S.G.J. Heijman, L.C. Rietveld, Effect of PAC dosage in a pilot-scale PAC–MBR treating micro-polluted surface water, Bioresource Technol., 154 (2014) 290–296.
  10. S. Shao, F. Qu, H. Liang, K. Li, H. Yu, H. Chang, G. Li, Powdered activated carbon–membrane bioreactor operated under intermittent aeration and short sludge retention times for micro-polluted surface water treatment, Int. Biodeter. Biodegr., 102 (2015) 81–88.
  11. Q. Hu, M. Li, C. Wang, M. Ji, Influence of powdered activated carbon addition on water quality, sludge properties, and microbial characteristics in the biological treatment of commingled industrial wastewater, J. Hazard. Mater., 295 (2015) 1–8.
  12. S. Lochmatter, G. Gonzalez-Gil, C. Holliger, Optimized aeration strategies for nitrogen and phosphorus removal with aerobic granular sludge, Water Res., 47 (2013) 6187–6197.
  13. X. Zhao, H. Xu, J. Shen, B. Yu, X. Wang, Decreasing effect and mechanism of moisture content of sludge biomass by granulation process, Environ. Technol., 37 (2016) 192–201.
  14. H. Xu, X. Zhao, H. Li, H. Luo, Z. Chen, Y. Liu, Effects of properties on formation of aerobic granular sludge under different organic loadings, Desal. Water Treat., 57(41) (2016) 19106–19111.
  15. M.X. Chen, H.Z. Zhou, X.H. Zhu, Z.L. Tan, X.D. Li, Optimization of determination of protein in activated sludge by bradford method, Environ. Sci. Technol., 38 (2015) 1–5.
  16. B. Frolund, R. Palmgren, K. Keiding, P.H. Nielsen, Extraction of extracellular polymers from activated sludge using a cation exchange resin, Water Res., 30 (1996) 1749–1758.
  17. M. Remy, V. Potier, H. Temmink, W. Rulkens, Why low powdered activated carbon addition reduces membrane fouling in MBRs, Water Res., 44 (2010) 861–867.
  18. L.N. Nguyen, F.I. Hai, J. Kang, L.D. Nghiem, W.E. Price, W. Guo, H.H. Ngo, K. Tung, Comparison between sequential and simultaneous application of activated carbon with membrane bioreactor for trace organic contaminant removal, Bioresource Technol., 130 (2013) 412–417.
  19. A.P. Trzcinski, D.C. Stuckey, Treatment of municipal solid waste leachate using a submerged anaerobic membrane bioreactor at mesophilic and psychrophilic temperatures: Analysis of recalcitrants in the permeate using GC-MS, Water Res., 44 (2010) 671–680.
  20. I. Vyrides, D.C. Stuckey, Saline sewage treatment using a submerged anaerobic membrane reactor (SAMBR): Effects of activated carbon addition and biogas-sparging time, Water Res., 43 (2009) 933–942.
  21. W.Q. Han, L.J. Wang, X.Y. Sun, J.S. Li, Treatment of bactericide wastewater by combined process chemical coagulation, electrochemical oxidation and membrane bioreactor, J. Hazard. Mater., 151 (2008) 306–315.
  22. G.X. Xu, S.K. Pan, G.R. Xu, X. Sun, M.L. Zhang, PAC-Membrane Bioreactor for Treatment of Micro-polluted Raw Water, China Water Wastewater, 21 (2005) 43–45.
  23. C. Ma, S.L. Yu, W.X. Shi, S.G.J. Heijman, L.C. Rietveld, Effect of different temperatures on performance and membrane fouling in high concentration PAC–MBR system treating micropolluted surface water, Bioresource Technol., 141 (2013) 19–24.
  24. C. Ma, S.L. Yu, W.X. Shi, W.D. Tian, S.G.J. Heijman, L.C. Rietveld, High concentration powdered activated carbonmembrane bioreactor (PAC-MBR) for slightly polluted surface water treatment at low temperature, Bioresource Technol., 113 (2012) 136–142.
  25. J.S. Kim, C.H. Lee, H.D. Chun, Comparison of ultrafiltration characteristics between activated sludge and BAC sludge, Water Res., 32 (1998) 3443–3451.
  26. F.L. Zhan, J.Y. Hu, Y. Li, H.P. Deng, The comparative research on PAC/MBR for treating micro-polluted surface water, Technol. Water Treat., 37 (2011) 78–82.
  27. H.J. Lin, F.Y. Wang, L.X. Ding, H.C. Hong, J.R. Chen, X.F. Lu, Enhanced performance of a submerged membrane bioreactor with powdered activated carbon addition for municipal secondary effluent treatment, J. Hazard. Mater., 192 (2011) 1509–1514.
  28. F.J. Zhang, S.Y. Wang, T. Liu, N. Sha, H. Wang, H.L. Zhou, Effect of dosing powdered activated carbon on operational performances of MBR, J. Jilin Univ. (Earth Sci. Ed.), 37 (2007) 350–354.
  29. G. Munz, R. Gori, G. Mori, C. Lubello, Powdered activated carbon and membrane bioreactors (MBRPAC) for tannery wastewater treatment: long term effect on biological and filtration process performances, Desalination, 207 (2007) 349– 360.
  30. H.J. Fan, Pharmaceuticals removal and mechanism in a PAC enhanced MBR, Beijing Forestry University, 2014, pp.116.
  31. J.Z. Ren, J. Li, Z.Z. Wang, B. Liu, J.H. Gao, J. Chang, Running stability in enhanced phosphorus removal A/O-MBR, Chinese J. Environ. Eng., 09 (2015) 4102–4106.
  32. Y. Bai, T.J. Cai, Z.B. Chen, H.C. Wang, A.Y. Jiao, Treatment of Antibiotic Wastewater by MBR, J. Kunming Univ. Sci. Technol. (Nat. Sci. Ed.), 36 (2011) 54–57.
  33. I.S. Chang, C.H. Lee, Membrane filtration characteristics in membrane-coupled activated sludge system-the effect of physiological states of activated sludge on membrane fouling, Desalination, 120 (1998) 221–233.
  34. Z. Ahmed, J. Cho, B. Lim, K. Song, K. Ahn, Effects of sludge retention time on membrane fouling and microbial community structure in a membrane bioreactor, J. Membr. Sci., 287 (2007) 211–218.
  35. A. Ramesh, D.J. Lee, J.Y. Lai, Membrane biofouling by extracellular polymeric substances or soluble microbial products from membrane bioreactor sludge, Appl. Microbiol. Biot., 74 (2007) 699–707.
  36. Z. Wang, Z. Wu, S. Tang, Characterization of dissolved organic matter in a submerged membrane bioreactor by using threedimensional excitation and emission matrix fluorescence spectroscopy, Water Res., 43 (2009) 1533–1540.
  37. J. Chen, E.J. LeBoeuf, S. Dai, B. Gu, Fluorescence spectroscopic studies of natural organic matter fractions, Chemosphere, 50 (2003) 639–647.
  38. J. Świetlik, E. Sikorska, Application of fluorescence spectroscopy in the studies of natural organic matter fractions reactivity with chlorine dioxide and ozone, Water Res., 38 (2004) 3791–3799.
  39. R.H. Peiris, C. Hallé, H. Budman, C. Moresoli, S. Peldszus, P.M. Huck, R.L. Legge, Identifying fouling events in a membranebased drinking water treatment process using principal component analysis of fluorescence excitation-emission matrices, Water Res., 44 (2010) 185–194.