1. Japan for Sustainability, Japanese Municipalities Targeting Energy Self-Sufficiency at Sewage Treatment Plants, JFS Newsletter No. 71, 2008.
  2. P.L. McCarty, J. Bae, J. Kim, Domestic wastewater treatment as a net energy producer—can this be achieved? Environ. Sci. Technol., 45 (2011) 7100–7106.
  3. D.S. Parker, M.S. Merrill, Oxygen and air activated sludge: another view, J. Water Pollut. Control Fed., 48 (1976) 2511–2528.
  4. D.J. Reardon, Turning down the power, Civ. Eng., 65 (1995) 54–56.
  5. J.J. Heijnen, A. Mulder, W. Enger, F. Hoeks, Review on the application of anaerobic fluidized bed reactors in waste-water treatment, Chem. Eng. J., 41 (1989) B37–B50.
  6. G. Tchobanoglous, H. D. Stensel, R. Tsuchihashi and F. Burton, Wastewater Engineering Treatment and Reuse, 4th ed., Metcalf and Eddy, New York, 2003.
  7. S.K. Lateef, B.Z. Soh, K. Kimura, Direct membrane filtration of municipal wastewater with chemically enhanced backwash for recovery of organic matter, Bioresour. Technol., 150 (2013) 149–155.
  8. T.Y. Cath, A.E. Childress, M. Elimelech, Forward osmosis: principles, applications, and recent developments, J. Membr. Sci., 281 (2006) 70–87.
  9. K.B. Petrotos, P. Quantick, H. Petropakis, A study of the direct osmotic concentration of tomato juice in tubular membrane— module configuration. I. The effect of certain basic process parameters on the process performance, J. Membr. Sci., 150 (1998) 99–110.
  10. E.M. Garcia-Castello, J.R. McCutcheon, M. Elimelech, Performance evaluation of sucrose concentration using forward osmosis, J. Membr. Sci., 338 (2009) 61–66.
  11. B.R. Babu, N.K. Rastogi, K.S.M.S. Raghavarao, Effect of process parameters on transmembrane flux during direct osmosis, J. Membr. Sci., 280 (2006) 185–194.
  12. S. Lee, C. Boo, M. Elimelech, S. Hong, Comparison of fouling behavior in forward osmosis (FO) and reverse osmosis (RO), J. Membr. Sci., 365 (2010) 34–39.
  13. Y. Gu, L. Chen, J.W. Ng, C. Lee, V.W.C. Chang, C.Y. Tang, Development of anaerobic osmotic membrane bioreactor for low-strength wastewater treatment at mesophilic condition, J. Membr. Sci., 490 (2015) 197–208.
  14. X. Zhang, Z. Ning, D.K. Wang, J.C.D. da Costa, Processing municipal wastewaters by forward osmosis using CTA membrane, J. Membr. Sci., 468 (2014) 269–275.
  15. S. Zhao, L. Zou, D. Mulcahy, Effects of membrane orientation on process performance in forward osmosis applications, J. Membr. Sci., 382 (2011) 308–315.
  16. A.L. Smith, L.B. Stadler, N.G. Love, S.J. Skerlos, L. Raskin, Perspectives on anaerobic membrane bioreactor treatment of domestic wastewater: a critical review, Bioresour. Technol., 122 (2012) 149–159.
  17. D.W. Menzel, N. Corwin, The measurement of total phosphorus in seawater based on the liberation of organically bound fractions by persulfate oxidation, Limnol. Oceanogr., 10 (1965) 280–282.
  18. R.K. McGovern, On the potential of forward osmosis to energetically outperform reverse osmosis desalination, J. Membr. Sci., 469 (2014) 245–250.
  19. H. Lin, J. Chen, F. Wang, L. Ding, H. Hong, Feasibility evaluation of submerged anaerobic membrane bioreactor for municipal secondary wastewater treatment, Desalination, 280 (2011) 120–126.
  20. M. Shibya, M. Yasukawa, T. Takahashi, T. Miyoshi, M. Higa, H. Matsuyama, Effect of operating conditions on osmotic-driven membrane performances, Desalination, 362 (2015) 34–42.
  21. G.D. Zupančič, N. Uranjek-Ževart, M. Roš, Full-scale anaerobic co-digestion of organic waste and municipal sludge, Biomass Bioenergy, 32 (2008) 162–167.
  22. K. Kimura, R. Nishisako, T. Miyoshi, R. Shimada, Y. Watanabe, Baffled membrane bioreactor (BMBR) for efficient nutrient removal from municipal wastewater, Water Res., 42 (2008) 625–632.
  23. G. Lettinga, A. De Man, A.R.M. Van der Last, W. Wiegant, K. Van Knippenberg, J. Frijns, J.C.L. Van Buuren, Anaerobic treatment of domestic sewage and wastewater, Water Sci. Technol., 27 (1993) 67–73.
  24. A. Saddoud, M. Ellouze, A. Dhouib, S. Sayadi, Anaerobic membrane bioreactor treatment of domestic wastewater in Tunisia, Desalination, 207 (2007) 205–215.
  25. D. Martinez-Sosa, B. Helmreich, T. Netter, S. Paris, F. Bischof, H. Horn, Anaerobic submerged membrane bioreactor (AnSMBR) for municipal wastewater treatment under mesophilic and psychrophilic temperature conditions, Bioresour. Technol., 102 (2011) 10377–10385.
  26. A.D. Cuéllar, M.E. Webber, Cow power: the energy and emissions benefits of converting manure to biogas, Environ. Res. Lett., 3 (2008) 1–8.
  27. J. Wang, Y. Song, P. Yuan, J. Peng, M. Fan, Modeling the crystallization of magnesium ammonium phosphate for phosphorus recovery, Chemosphere, 65 (2006) 1182–1187.
  28. J.C. Van Dijk, H. Braakensiek, Phosphate removal by crystallization in a fluidized bed, Water Sci. Technol., 17 (1984) 133–142.
  29. K. Xiao, Y. Xu, S. Liang, T. Lei, J. Sun, X. Wen, X. Huang, Engineering application of membrane bioreactor for wastewater treatment in China: current state and future prospect, Front. Environ. Sci. Eng., 8 (2014) 805–819.
  30. R. Gnirss, J. Dittrich, Microfiltration of municipal wastewater for disinfection and advanced phosphorus removal: results from trials with different small-scale pilot plants, Water Environ. Res., 72 (2000) 602–609.
  31. R. Watanabe, T. Sugo, S. Wakahara, Y.Y. Li, Influence of temperature on treatment performance of synthetic sewage by anaerobic membrane bioreactor (AnMBR), J. Japan Soc. Water Environ., 37 (2104) 197–204.