Volume 2, Issue 6, December 2016, Page: 34-38
Improving the Performance of Sequencing Batch Biofilm Reactor (Sbbr) by Additing the Zeolite Powder
Yun Xia Wei, School of Chemistry and Environmental Science, Lan zhou City University, Lan Zhou, China
Ming Guang Ma, School of Chemistry and Environmental Science, Lan zhou City University, Lan Zhou, China
Guo Hu Zhao, School of Chemistry and Environmental Science, Lan zhou City University, Lan Zhou, China
Shi Hong Xu, School of Chemistry and Environmental Science, Lan zhou City University, Lan Zhou, China
Fang Liu, School of Chemistry and Environmental Science, Lan zhou City University, Lan Zhou, China
Received: Jul. 26, 2016;       Accepted: Aug. 29, 2016;       Published: Dec. 30, 2016
DOI: 10.11648/j.jher.20160206.11      View  3726      Downloads  123
Abstract
Two types of operation means “SBBR reactor alone (Sreactor)” and “adding zeolite powder into SBBR reactor (Z-Sreactor)” were used to treat municipal wastewater. The test results showed that zeolite added in reactor could improve the activity of the activated sludge. Due to the combination of zeolite adsorption for NH4+-N enhanced simultaneous nitrification andde-nitrification (SND), a higher nitrogen removal was observed in Z-S reactor compared to the S reactor, and the addition of zeolite powder is helpful to inhabit sludge bulking. Inaddition, through long-term parallel shock load test, it was found that the zeolite added in reactor could enhance the ability of activated sludge inresisting the shock load of organics and ammonium.
Keywords
Sequencing Batch Biofilm Reactor (SBBR), Zeolite Powder, Adsorption, Ammonia Nitrogen, Municipal Wastewater
To cite this article
Yun Xia Wei, Ming Guang Ma, Guo Hu Zhao, Shi Hong Xu, Fang Liu, Improving the Performance of Sequencing Batch Biofilm Reactor (Sbbr) by Additing the Zeolite Powder, Journal of Health and Environmental Research. Vol. 2, No. 6, 2016, pp. 34-38. doi: 10.11648/j.jher.20160206.11
Copyright
Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Nguyen, M., and Tanner, C. (1998). Ammonium removal from wastewaters using natural New Zealand zeolites, N. Z. J. Agric. Res., 41, 427.7.
[2]
Hai Ming, et al., (2010). Ammonium removal from aqueous solutions by using natural Chinese (Chende) zeolite as adsorbent, J Hazard Mater, 175, 247.
[3]
Azhar Abdul, et al. (2010). Comparison study of ammonia and COD adsorption on zeolite, activated carbon and composite materials in landfill leachate treatment, Desalination, 262, 31.
[4]
Zhu, L., and Jin Ren, N. (2009). Improving the ammonium ion uptake onto natural zeolite by using an integrated modification process, J Hazard Mater, 166,52.
[5]
Seong Hoon, et al. (2004). The optimumo perational condition of membrane bio reactor (MBR): cost estimation of aeration and sludge treatment, Water Res, 38, 37.
[6]
Ying Chih, et al. (2007). Control of carbon and ammonium ratio for simultaneous nitrification and denitrification in a sequencing batch bioreactor, Int Biodeter Biodegr, 59, 1.
[7]
Bernardino, et al. (2011). Biofilms tratification during simultaneous nitrification and denitrification (SND) atabiocathode, Bioresource Technol, 102, 334.
[8]
Yan Chen, et al. (2010). Study of operational conditions of simultaneous nitrification and denitrification in a Carrousel oxidation ditch ford omestic wastewater treatment, Bioresource Technol, 101, 901.
[9]
Bernardino, et al. (2010). Simultaneous nitrification, denitrification and carbon removal in microbial fuel cells, Water Res, 44, 2970.
[10]
Ping Yun, et al. (1997). Hydrothermal syntheses and structural characterization of zeolite analogue compounds based on cobalt phosphate, Nature, 388, 735.
[11]
Komarowski, S., and Yu, Q. (1997). Ammoniumion removal from wastewater using Australian natural zeolite: batch equilibrium and kinetic studies, Environ. Technol, 18, 1085.
[12]
Shao Bin, et al. (2006). Physical and chemical regeneration of zeolitic adsorbents for dye removal in wastewater treatment, Chemosphere, 65, 82.
[13]
Timothy, M., and James, E. (1999). Thermophilic aerobic biological wastewater treatment, Water Res, 33, 895.
[14]
Adriano, et al. (2005). Removal of pharmaceuticals and fragrances in biological wastewater treatment, Water Res, 39, 3139.
[15]
Guo Ping, et al. (2010). Extracellular polymeric substances (EPS) of microbial aggregates in biological wastewater treatment systems: Areview, Biotechnol Adv, 28, 882.
[16]
Susse Kirkelund, et al. (2007). Evolution of species interaction sina biofilm community, Nature, 445, 533.
[17]
Lin Chen, et al. (2008). Study on preparation and properties of activated carbon fiber/polyurethane composite carriers, Chemistry, 9, 679.
[18]
Germán, B., and Iván Moreno, A. (2011). Biodegradation kinetics of a mixture of phenolsina sequencing batch moving bed biofilm reactor under starvation and shock loads, J CHEM TECHNOL BIOT, 86, 669.
[19]
Robinson S. M., Arnold W. D., Byers C. H. (1994). Mass-transfer mechanisms for zeolite ionexchange in wastewater treatment, AIChEJ, 40, 2045.
[20]
Kara, et al. (2003). Adsorption of cobalt from aqueous solutions onto sepiolite, Water Res, 37, 224.
[21]
Peng, et al. (2008). Assessing the effectiveness of treating coking effluents using anaerobic and aerobic biofilms, Process Biochem, 43, 229.
[22]
Lin Chen, et al. (2008). Immobilization of Micro-Organismon Macroporous Polyurethane Carriers, Environ Eng Sci, 25, 1235.
[23]
Sheng Bin, et al. (2007). Improving the performance of sequencing batchreactor (SBR) by the addition of zeolite powder, J Hazard Mater, 142, 493.
[24]
Silvio, et al. (2012). Application of natural zeolites in anaerobic digestion processes: Areview, Appl Clay Sci, 58, 125.
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