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Membrane Separation Technology on Pharmaceutical Wastewater by Using MBR (Membrane Bioreactor)

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DOI: 10.4236/jep.2015.64030    3,536 Downloads   4,573 Views   Citations

ABSTRACT

This study demonstrated the feasibility of implementing of MBR in pharmaceutical wastewater independently, and concluded different applications of MBR in industries. Membrane bioreactor (MBR) technology was a new wastewater treatment technology with a combination of membrane separation technology and biological treatment technology, which had unique advantages on pharmaceutical wastewater treatment. The modified membrane rector design provided a significantly lower concentration of NH3-N, Phosphorous, Total Nitrogen and COD around the membranes, and subsequently a more sustainable membrane performance due to much lower overall fouling rates. In this paper, the classification and structure of biological waste water treatment by using MBR technology were summed up along with some examples of MBR in industrial wastewater treatment, which was emphatically analyzed and discussed. Finally, the prospect of MBR in industrial wastewater treatment was described. The industrial wastewater was a high-strength wastewater which had characteristics of complicated constituents, high organics concentration, highly toxic.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Fazal, S. , Zhang, B. , Zhong, Z. , Gao, L. and Lu, X. (2015) Membrane Separation Technology on Pharmaceutical Wastewater by Using MBR (Membrane Bioreactor). Journal of Environmental Protection, 6, 299-307. doi: 10.4236/jep.2015.64030.

References

[1] Judd, S. (2006) The MBR Book. Elsevier, Amsterdam.
[2] Kraume, M. and Drews, A. (2010) Membrane Bioreactors in Waste Water Treatment—Status and Trends. Chemical Engineering & Technology, 33, 1251-1259.
http://dx.doi.org/10.1002/ceat.201000104
[3] Chatterjee, J., Rai, N. and Sar, S.K. (2014) A Study on Waste Water Treatment from Anti Biotic Production. Current World Environment, 9, 223-226.
http://dx.doi.org/10.12944/CWE.9.1.33
[4] F Chrysanthemum Green (2006) Progress Summary Pharmaceutical Wastewater Treatment. Chongqing University of Science and Technology: Natural Science, 8, 13-15.
[5] Jian, W., Shen, B. and Fan, L.H. (2010) Test Membrane Bioreactor Wastewater Treatment Cephalosporin Pharmaceutical Study. Journal of Environmental Engineering, 28 Suppl, 65-66.
[6] Visvanathan, C., Aim, R.B. and Parameshwaran, K. (2000) Membrane Separation Bioreactors for Wastewater Treatment. Critical Reviews in Environmental Science and Technology, 30, 1-48.
http://dx.doi.org/10.1080/10643380091184165
[7] Min, L.Z. (2010) MBR Process of Fermentation Class Pharmaceutical Wastewater Treatment Pilot Study. Journal of China Water & Wastewater, 26, 131-133.
[8] Wang, L.K. and Menon, R. (2011) Treatment of Industrial Effluents, Municipal Wastes, and Potable Water by Membrane Bioreactors. In: Membrane and Desalination Technologies, Handbook of Environmental Engineering, Vol. 13, 201-236.
[9] Magara, Y. and Itoh, M. (1991) The Effect of Operational Factors on Solid/Liquid Separation by Ultra-Membrane Filtration in a Biological Denitrification System for Collected Human Excreta Treatment Plants. Journal of Water Science and Technology, 23, 1583-1590.
[10] Chen, W.W. (2007) MBR Membrane Biological Treatment Technology and Its Application and Progress in Wastewater Reuse. Journal of Water Industrial Markets, 8, 52-57.
[11] Chen, X.D., Liang, Y.J. and Li, X. (2004) Research and Application of Membrane Bioreactor Wastewater Treatment. Journal of River North Industrial Science and Technology, 21, 41-44.
[12] Yang, M. and Wang, D.-S. (2010) Experimental Study of Antibiotic Wastewater. Journal of Environmental Protection and Recycling Economy, 9, 54-55.
[13] Bo, F.Y. (1995) Water and Wastewater Treatment Membrane Bioreactor Technology. Journal of Environmental Science, 16, 79-81.
[14] Fan, L.R. (2010) Activated Sludge Process-Combined Process of Hydrolysis Acidification -MBR Chemical Pharmaceutical Wastewater. Journal of Water Supply and Drainage, 36, 158-161.
[15] Feng, F., Zhou, W.B. and Tang, G.L. (2006) MBR Process Vitamin C Pharmaceutical Wastewater Pilot Experiment. Journal of Environmental Engineering, 12, 16-18.
[16] Zheng, W., Chen, L.J., Hai, Y.C., et al. (2010) Contact Oxidation-Hydrolysis-MBR Cephalosporin Antibiotic Treatment Chemical Synthesis Wastewater. Journal of Chemical Environmental Protection, 30, 395-399.
[17] Liu, J., Zhang, M. and Li, J.J. (2007) MBR Process Lisinopril Enalapril Pharmaceutical Wastewater. Journal of Engineers, 5, 27-28.
[18] Sun, M. (2009) MBR Pharmaceutical Wastewater Treatment Process. Journal of Environmental Science Survey, 28, 69-71.
[19] Su, Y.S. and Lin, F.M. (2011) Coagulation and Sedimentation—MBR Pharmaceutical Wastewater Treatment Process. Journal of Water Supply and Drainage, 37, 63-64.

  
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