Anaerobic Biological Filter - Biological Contact Oxidation Process of High Salt Wastewater Treatment Process Coupling and Influencing Factors

Ya Shu Yuan; Xin Yuan; Xin Cao; Peng Fei Yu; Chun Lin Liu

doi:10.4028/www.scientific.net/AMR.1014.303

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1014Anaerobic Biological Filter - Biological Contact...

Anaerobic Biological Filter - Biological Contact Oxidation Process of High Salt Wastewater Treatment Process Coupling and Influencing Factors

Abstract:

In this study a food company in the production of sauerkraut pickled wastewater as an object, using the anaerobic biological filter and biological contact oxidation pond process, feed water salinity, HRT are investigated, and the effects of each process. The results showed that anaerobic biological filter when HRT is 36 h, the COD removal rate can reach 81%. Biological contact oxidation pool when HRT is 60 h, when the COD removal rate reached 85%. Anaerobic biological filter - biological contact oxidation coupling process of pickling wastewater removal effect is obvious, after processing salted COD removal rate reached 88%.

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Periodical:

Advanced Materials Research (Volume 1014)

Pages:

303-306

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1014.303

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Online since:

July 2014

Authors:

Ya Shu Yuan*, Xin Yuan, Xin Cao, Peng Fei Yu, Chun Lin Liu

Keywords:

Anaerobic Biological Filter, Biological Contact Oxidation, High Salt Waste Water, HRT, Salinity, Temperature

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References

[1] ZhiZhang, JianZhou. Food high in salt and organic waste water treatment technology development trend of nitrogen and phosphorus [J]. Water Supply and Drainage, 2012, 38 (9) : 1-2.

Google Scholar

[2] Yao Chen, JianZhou. Quick start high salt anaerobic biological treatment system and its decontamination properties [J]. Water Treatment Technology, 2011, 37 (6) : 1 ~ 2.

Google Scholar

[3] Fikret Karg. I Effect of salt concertration on biological treatment of saline wastewater by fed-batch operation. Enzyme and Microbial Technology, 1996, 19: 529-537.

DOI: 10.1016/s0141-0229(96)00070-1

Google Scholar

[4] Dincer A. R., Kargi F. Performance of ratating biological dise system treating saline wastewater. Process Biochemistry, 2001, 36(13): 901-906.

DOI: 10.1016/s0032-9592(00)00287-9

Google Scholar

[5] Xiang hua Wen, Xin min Zhan, Jianlong Wang, etc. Research progress of saline wastewater biological treatment [J]. Journal of Environmental Science, 1999, 20 (3) : 104-106.

Google Scholar

[6] Ludzack F J, Noran P K. Tolerance ofHigh Salinities by Conventional Wastewater Treatment Process[J]. WaterPollutControlFed, 1965, 37(10): 1 404 -1 416.

Google Scholar

[7] DincerA R, Kargi F. Performance of Rotating Biological Disc System Treating Saline Wastewater [ J ]. Process Biochem, 2001, 36(8 -9): 901 -906.

DOI: 10.1016/s0032-9592(00)00287-9

Google Scholar

[8] Campos JL, Mosquera -CorralA, SanchezM, eta. l Nitrification in Saline Wastewater with High Ammonia Concentration in an Activated Sludge Unit [J]. Water Res, 2002, 36(10): 2 555 -2 560.

DOI: 10.1016/s0043-1354(01)00467-5

Google Scholar

[9] Jian Yang, Shi fen Wang, Changhong Guo. Domesticated activated sludge processing high salinity organic wastewater research [J]. Shanghai Environmental Science, 1998, 17 (9) : 8-10.

Google Scholar

[10] Qi tao Wu. Pickle cured high salt waste water treatment of microbial system establishment, China's Water Supply and Drainage. 2007. 23 (15) : 1-3.

Google Scholar