References
- M. Cheryan, N. Rajagopalan, Membrane processing of oily streams, Wastewater treatment and waste reduction, J. Membr. Sci. 151 (1998) 13–28.
- J.M. Benito, G. Ríos, E. Ortea, E. Fernández, A. Cambiella, C. Pazos, J. Coca, Design and construction of a modular pilot plant for the treatment of oil-containing wastewaters, Desalination 147 (2002) 5–10.
- V. Mavrov, T. Erwe, C. Blöcher, H. Chmiel, Study of new integrated processes combining adsorption, membrane separation and flotation for heavy metal removal from wastewater, Desalination 157 (2003) 97–104.
- M.A. Barakat, New trends in removing heavy metals from industrial wastewater, Arabian J. Chem. 4 (2011) 361–377.
- N. Lesage, M. Sperandio, C. Cabassud, Study of a hybrid process: Adsorption on activated carbon/membrane bioreactor for the treatment of an industrial wastewater, Chem. Eng. Process. 47 (2008) 303–307.
- G. Mascolo, G. Laera, A. Pollice, D. Cassano, A. Pinto, C. Salerno, A. Lopez, Effective organics degradation from pharmaceutical wastewater by an integrated process including membrane bioreactor and ozonation, Chemosphere 78 (2010) 1100–1109.
- Y. Satyawali, M. Balakrishnan, Effect of PAC addition on sludge properties in an MBR treating high strength wastewater, Water Res. 43 (2009) 1577–1588.
- Y.H. Zhang, F.X. Gan, M. Li, D.H. Wang, Z.M. Huang, Y.P. Gao, Treatment of reused comprehensive wastewater in iron and steel industry with electrosorption technology, J. Iron Steel Res. Int. 18(6) (2011) 37–42.
- S. Yuan, M. Tong, G. Wu, Destabilization of emulsions by natural minerals, J. Hazard. Mater. 192 (2011) 1882–1885.
- Y.H. Zhang, F.X. Gan, M. Li, J. Li, S.Q. Li, S.H. Wu, New integrated processes for treating cold-rolling mill emulsion wastewater, J. Iron Steel Res. Int. 17(6) (2010) 32–35.
- W. Yang, N. Cicek, J. Ilg, State-of-the-art of membrane bioreactors: Worldwide research and commercial applications in North America, J. Membr. Sci. 270 (2006) 201–211.
- S. Weiss, T. Reemtsma, Membrane bioreactors for municipal wastewater treatment - A viable option to reduce the amount of polar pollutants discharged into surface waters? Water Res. 42 (2008) 3837–3847.
- B. Bienati, A. Bottino, G. Capannelli, A. Comite, Characterization and performance of different types of hollow fibre membranes in a laboratory-scale MBR for the treatment of industrial wastewater, Desalination 231 (2008) 133–140.
- J. Arévalo, L.M. Ruiz, J.A. Parada-Albarracín, D.M. González-Pérez, J. Pérez, B. Moreno, M.A. Gómez, Wastewater reuse after treatment by MBR. Microfiltration or ultrafiltration? Desalination 299 (2012) 22–27.
- E. Sahar, I. David, Y. Gelman, H. Chikurel, A. Aharoni, R. Messalem, A. Brenner, The use of RO to remove emerging micropollutants following CAS/UF or MBR treatment of municipal wastewater, Desalination 273 (2011) 142–147.
- A. Carucci, S. Milia, G. Cappai, A. Muntoni, A direct comparison amongst different technologies (aerobic granular sludge, SBR and MBR) for the treatment of wastewater contaminated by 4-chlorophenol, J. Hazard. Mater. 177 (2010) 1119–1125.
- P.K. Tewari, R.K. Singh, V.S. Batra, M. Balakrishnan, Membrane bioreactor (MBR) for wastewater treatment: Filtration performance evaluation of low cost polymeric and ceramic membranes, Sep. Purif. Technol. 71 (2010) 200–204.
- J.J. Qin, M.H. Oo, G. Tao, K.A. Kekre, Feasibility study on petrochemical wastewater treatment and reuse using submerged MBR, J. Membr. Sci. 293 (2007) 161–166.
- T. Melin, B. Jefferson, D. Bixio, C. Thoeye, W. De Wilde, J. De Koning, J. van der Graaf, T. Wintgens, Membrane bioreactor technology for wastewater treatment and reuse, Desalination 187 (2006) 271–282.
- Environmental Analysis Laboratory, EPA, Executive Yuan, Taiwan, R.O.C. Accessed May 28, 2013 Available from: http://www.niea.gov.tw/analysis/method/ListMethod.asp?methodtype=WATER.