厌氧膜生物反应器处理高浓度有机废水的研究
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摘要
目前厌氧膜生物处理技术被认为是处理高浓度有机废水的研究热点之一,它结合了厌氧生物处理与膜过滤系统,从而具有运营成本低、易于管理控制及剩余污泥产率少等优点。但是,也面临着诸如盐度积聚,抑制物质和膜污染等挑战。本文综述了厌氧膜生物反应器的基本原理和构造以及相关的影响因素,为高浓度有机废水的处理提供相关建议。
Nowadays, anaerobic membrane biological treating technology for high-concentration organic wastewater treatment is increasingly becoming the research hotpot. It combines anaerobic biological treatment with membrane filtration system, which has the advantages as low operating cost, easy management and low residual sludge yield. However, it also faces some challenges such as salinity accumulating, substances inhibiting and membrane fouling. This review provides the basic principles, construction of anaerobic membrane bioreactors and related influencing factors, offering suggestions for the high concentration organic wastewater treatment.
Nowadays, anaerobic membrane biological treating technology for high-concentration organic wastewater treatment is increasingly becoming the research hotpot. It combines anaerobic biological treatment with membrane filtration system, which has the advantages as low operating cost, easy management and low residual sludge yield. However, it also faces some challenges such as salinity accumulating, substances inhibiting and membrane fouling. This review provides the basic principles, construction of anaerobic membrane bioreactors and related influencing factors, offering suggestions for the high concentration organic wastewater treatment.
引文
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[15]Smith A L,Stadler L B,Love N G,et al.Perspectives on anaerobic membrane bioreactor treatment of domestic wastewater:a critical review.Bioresour Technol,2012,122:149-159.
[16]Lin H,Peng W,Zhang M,et al.A review on anaerobic membrane bioreactors:applications,membrane fouling and future perspectives.Desalination,2013,314:169-188.
[17]Huang Z,Ong S L,Ng H Y.Submerged anaerobic membrane bioreactor for lowstrength wastewater treatment:effect of HRT and SRT on treatment performance and membrane fouling.Water Res,2011,45(2):705-713.
[18]Jun D,Kim Y,Hafeznezami S,et al.Biologically induced mineralization in anaerobic membrane bioreactors:assessment of membranescaling mechanisms in a long-term pilot study.J Membr Sci,2017,543:342-350.
[19]Koppelaar R H E M,Weikard H P.Assessing phosphate rock depletion andphosphorus recycling options.Global Environ Change,2013,23(6):1454-1466.
[2]Doyle J D,Oldring K,Churchley J,et al.Struvite formation and the fouling propensity of different materials.Water Res,2002,36:3971-3978.
[3]Judd S J.The status of industrial and municipal effluent treatment with membrane bioreactor technology.Chem Eng J,2016,305:37-45.
[4]Muyzer G,Stams AJ.The ecology and biotechnology of sulphate-reducing bacteria.Nat Rev Microbiol,2008,6(6):441-454.
[5]Kim H C,Shin J,Won S,et al.Membrane distillation combined with an anaerobic moving bed biofilm reactor for treating municipal wastewater.Water Res,2015,71:97-106.
[6]Xie M,Nghiem L D,Price W E,et al.A forward osmosis-membrane distillation hybrid process for direct sewer mining:system performance and limitations.Environ Sci Technol,2013,47(23):13486-13493.
[7]赵毅,朱法华,庞庚林,等.高浓度有机废水处理技术[J].电力科技与环保,2003,19(3):46-48.
[8]Maleki E,Catalan L J J,Liao B.Effect of organic loading rate on the performance of a submerged anaerobic membrane bioreactor(SAnMBR)for malting wastewater treatment and biogas production.J Chem Technol Biotechnol,2018,93(6):1636-1647.
[9]Dereli R K,Ersahin M E,Ozgun H,et al.Potentials of anaerobic membrane bioreactors to overcome treatment limitations induced by industrial wastewaters.Bioresou Technol,2012,122:160-170.
[10]Chen L,Gu Y,Cao C,et al.Performance of a submerged anaerobic membrane bioreactor with forward osmosis membrane for lowstrength wastewater treatment.Water Res,2014,50:114-123.
[11]Chen Y,Cheng J J,Creamer K S.Inhibition of anaerobic digestion process:a review.Bioresour Technol,2008,99(10):4044-4064.
[12]Meabe E,Déléris S,Soroa S,et al.Performance of anaerobic membrane bioreactor for sewage sludge treatment:mesophilic and thermophilic processes.J Membr Sci,2013,446:26-33.
[13]Tian H,Fotidis I A,Mancini E,et al.2018.Acclimation to extremely high ammonia levels in continuous biomethanation process and the associated microbial community dynamics.Bioresour Technol,2018,247:616-623.
[14]Wijekoon K C,McDonald J A,Khan S J,et al.Development of a predictive framework to assess the removal of trace organic chemicals by anaerobic membrane bioreactor.Bioresour Technol,2015,189:391-398.
[15]Smith A L,Stadler L B,Love N G,et al.Perspectives on anaerobic membrane bioreactor treatment of domestic wastewater:a critical review.Bioresour Technol,2012,122:149-159.
[16]Lin H,Peng W,Zhang M,et al.A review on anaerobic membrane bioreactors:applications,membrane fouling and future perspectives.Desalination,2013,314:169-188.
[17]Huang Z,Ong S L,Ng H Y.Submerged anaerobic membrane bioreactor for lowstrength wastewater treatment:effect of HRT and SRT on treatment performance and membrane fouling.Water Res,2011,45(2):705-713.
[18]Jun D,Kim Y,Hafeznezami S,et al.Biologically induced mineralization in anaerobic membrane bioreactors:assessment of membranescaling mechanisms in a long-term pilot study.J Membr Sci,2017,543:342-350.
[19]Koppelaar R H E M,Weikard H P.Assessing phosphate rock depletion andphosphorus recycling options.Global Environ Change,2013,23(6):1454-1466.
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