Paper Titles

Bioremediation - A Method to Solve Problems of Petroleum Pollution
p.2120

Catalytic Oxidation of Phosphine by Ionic Liquid-Aqueous Biophasic
p.2124

Characterization of Stainless Steel and Wire Rope Pickling Sludge
p.2130

Control Technology of PM_2.5 in Coal-Fired Power Plant and Experiment on Dedusting Performance of Typical Filters to PM_2.5
p.2135

Current Trends for Biological Antibiotic Pharmaceutical Wastewater Treatment
p.2140

Degradation of Acidic Congo Red via Activated Potassium Persulfate by Sunlight and Ferrous Ion
p.2146

Degradation of Long-Chain n-Alkanes by Acinetobacter Sp.
p.2151

Discussion of the Simultaneous Nitrogen and Phosphorus Removal Mechanism
p.2156

Effect of Flue Gas Pollution Control Devices on Mercury Emission from Coal-Fired Power Plants
p.2160

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Current Trends for Biological Antibiotic...

Current Trends for Biological Antibiotic Pharmaceutical Wastewater Treatment

Article Preview

Abstract:

The release of antibiotic pharmaceutical wastewater has caused a serious environmental problem. In order to provide a better guideline for the antibiotic wastewater treatment, this paper summarizes a critical review on the current biological technologies available for antibiotic wastewater degradation, including aerobic processes, anaerobic processes, anaerobic-aerobic processes, and other combined processes. Furthermore, applications of the antibiotic wastewater biological treatment processes are discussed as well.

You might also be interested in these eBooks

Advances in Environmental Technologies

Info:

Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

2140-2145

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.2140

Citation:

Cite this paper

Online since:

August 2013

Authors:

Wan Qian Guo, Ren Li Yin, Xian Jiao Zhou

Keywords:

Aerobic, Anaerobic, Antibiotic Pharmaceutical Wastewater, Biological Treatment Technologies, Combined Processes

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] X. Ye, X. Guo, X. Cui, X. Zhang, H. Zhang, M. K. Wang: J Environ Monit. vol. 14 (2012), p.2204.

[2] J. L. Martinez: Environ Pollut. vol. 157 (2009), p.2893.

[3] N. Le-Minh, S. J. Khan, J. E. Drewes, and R. M. Stuetz:Water Res. vol. 44, (2010), p.4295.

[4] K. Kummerer: Chemosphere. vol. 75 (2009), p.417.

[5] K. Kummerer: Chemosphere. vol. 75 (2009), p.435.

[6] I. Michael, L. Rizzo, C. S. McArdell, C. M. Manaia, C. Merlin, T. Schwartz:Water Res. vol. 47 (2013), p.957.

[7] L. Du and W. Liu:Agronomy for Sustainable Development. vol. 32 (2011), p.309.

[8] J. Radjenovic, M. Petrovic, and D. Barcelo: Water Res. vol. 43 (2009), p.831.

[9] F. I. Turkdogan and K. Yetilmezsoy: J Hazard Mater. vol. 166 (2009), p.297.

[10] S. Chelliapan, T. Wilby, and P. J. Sallis:Water Res. vol. 40 (2006), p.507.

[11] J. Zhang, L. Giorno, and E. Drioli: Desalination. vol. 194 (2006), p.101.

[12] Y.K. Gong, L.S. Zhang:Industrial Water Treatment. vol.25 (2005), p.1, In Chinese.

[13] H.L. Lin, G. Song: Chinese Agricultural Science Bulletin. vol.28 (2012), p.258, In Chinese.

[14] T.J. Zhang Y.J. He:China Water ＆ Wastewater. vol.28 (2012), p.72 ,In Chinese.

[15] X.D. Hu, G. Zhang:Journal of Guangzhou University(Natural Science Edition). vol.9 (2010), p.33 ,In Chinese.

[16] T. Coskun, H. A. Kabuk, K. B. Varinca, E. Debik, I. Durak, and C. Kavurt: Bioresour Technol. vol. 121 (2012), p.31.

DOI: 10.1016/j.biortech.2012.06.102

[17] N. Li, Q.W. Dai: Environmental Protection of Chemical Industry. vol.30 (2010), p.319, In Chinese.

[18] Y.Q. Li, J. Ma:Environmental Science and Management. vol.36 (2011), p.79 , In Chinese.

[19] X.L. Ni, S.Y. Li:Journal of Hehai University(Natural Sciences). vol.37 (2009), p.133, In Chinese.

[20] W.N. Mai, R.M. Zhou:Techniques and Equipment for Environmental Pollution Control. vol.3 (2005), p.23, In Chinese.

[21] Y.L. Jiang, D. Jiang:Technology of Water Treatment, vol.38 (2012), p.65, In Chinese.

[22] Q.X. Tang:Guangdong Chemical Industry. vol.37 (2010), p.241, In Chinese.

[23] H. Chen, D.Q. Wang:Journal of Guilin Institute of Technology. vol.23 (2003), p.79, In Chinese.

[24] X.P. Chen, Treatment of antibiotics pharmaceutical wastewater by ABR Hydrolysis Acidification-SBR process, South China University of Technology, In Chinese.

[25] P.S. Qi, L. Ding:Environmental Science. vol.26 (2005), p.106, In Chinese.

[26] Y. Bai T.J. Cai:Journal of Kunming University of Science and Technology ( Natural Science Edition), vol.36 (2011), p.54, In Chinese.

[27] E. S. Elmolla and M. Chaudhuri:J Hazard Mater, vol. 192 (2011), p.1418.

[28] I. Oller, S. Malato, J. A. Sánchez-Pérez, W. Gernjak, M. I. Maldonado, L. A. Pérez-Estrada : Catalysis Today, vol. 122 (2007), p.150.

DOI: 10.1016/j.cattod.2007.01.041