Filamentous bacteria in a foaming membrane bioreactor
暂无分享,去创建一个
[1] A. Arun,et al. Detection of filamentous genus Gordonia in foam samples using genus-specific primers combined with PCR--denaturing gradient gel electrophoresis analysis. , 2007, Canadian journal of microbiology.
[2] D. Jenkins,et al. A Comparison of the Physical, Chemical, and Biological Properties of Sludges from a Complete‐Mix Activated Sludge Reactor and a Submerged Membrane Bioreactor , 2007, Water environment research : a research publication of the Water Environment Federation.
[3] J. Sanz,et al. Molecular biology techniques used in wastewater treatment: An overview , 2007 .
[4] M. Marneri,et al. Thermal Hydrolysis of Secondary Scum for Control of Biological Foam , 2006, Water environment research : a research publication of the Water Environment Federation.
[5] L. Raskin,et al. Long-term analysis of a full-scale activated sludge wastewater treatment system exhibiting seasonal biological foaming. , 2006, Water research.
[6] Simon Judd,et al. The MBR Book: Principles and Applications of Membrane Bioreactors for Water and Wastewater Treatment , 2006 .
[7] J. Nakajima,et al. Measurement of Foam Quality of Activated Sludge in MBR Process , 2005 .
[8] S. Övez,et al. Microbial Ecology of Bulking and Foaming Activated Sludge Treating Tannery Wastewater , 2005, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.
[9] Young Moo Lee,et al. The Influence of Membrane Surface Properties on Fouling in a Membrane Bioreactor for Wastewater Treatment , 2005 .
[10] M. Goodfellow,et al. Actinomycete diversity associated with foaming in activated sludge plants , 1996, Journal of Industrial Microbiology.
[11] M. C. Tomei,et al. "Microthrix parvicella", a filamentous bacterium causing bulking and foaming in activated sludge systems: a review of current knowledge. , 2005, FEMS microbiology reviews.
[12] J. L. Pisicchio,et al. Occurrence and control of filamentous bulking in aerated wastewater treatment plants of the French paper industry. , 2004, Water science and technology : a journal of the International Association on Water Pollution Research.
[13] M. V. van Loosdrecht,et al. Filamentous bulking sludge--a critical review. , 2004, Water research.
[14] C. Ouyang,et al. Nitrification efficiency and nitrifying bacteria abundance in combined AS-RBC and A2O systems. , 2003, Water research.
[15] W. D. Marzio. First results from a screening of filamentous organisms present in Buenos Aires's activated sludge plants , 2002 .
[16] T. Curtis,et al. Are filamentous mycolata important in foaming? , 2002, Water science and technology : a journal of the International Association on Water Pollution Research.
[17] J. Wanner,et al. Microbial evaluation of activated sludge and filamentous population at eight Czech nutrient removal activated sludge plants during year 2000. , 2002, Water science and technology : a journal of the International Association on Water Pollution Research.
[18] C. Saint,et al. The "Nostocoida limicola" story: resolving the phylogeny of this morphotype responsible for bulking in activated sludge. , 2002, Water science and technology : a journal of the International Association on Water Pollution Research.
[19] M. Beer,et al. Phylogeny of the filamentous bacterium Eikelboom Type 1851, and design and application of a 16S rRNA targeted oligonucleotide probe for its fluorescence in situ identification in activated sludge. , 2002, FEMS microbiology letters.
[20] L. Raskin,et al. Role of filamentous microorganisms in activated sludge foaming: relationship of mycolata levels to foaming initiation and stability. , 2002, Water research.
[21] Daniel B. Oerther,et al. Quantifying filamentous microorganisms in activated sludge before, during, and after an incident of foaming by oligonucleotide probe hybridizations and antibody staining. , 2001, Water research.
[22] James Huang,et al. Sealing and mechanical behaviors of expanded ptfe gasket sheets characterized by pvrc room temperature tightness tests , 2001 .
[23] C. Saint,et al. Phylogeny of the filamentous bacterium 'Nostocoida limicola' III from activated sludge. , 2001, International journal of systematic and evolutionary microbiology.
[24] T. Tokutomi,et al. Formation of stable foam by the cells and culture supernatant of Gordonia (Nocardia) amarae. , 2001, Journal of bioscience and bioengineering.
[25] D. Eikelboom. Process Control of Activated Sludge Plants by Microscopic Investigation , 2000 .
[26] In-Soung Chang,et al. Membrane filtration characteristics in membrane-coupled activated sludge system -- the effect of physiological states of activated sludge on membrane fouling , 1998 .
[27] Mark Hernandez,et al. Quantification of Gordona amarae Strains in Foaming Activated Sludge and Anaerobic Digester Systems with Oligonucleotide Hybridization Probes , 1998, Applied and Environmental Microbiology.
[28] S. Rossetti,et al. Some physiological properties of an Italian isolate of “microthrix parvicella” , 1998 .
[29] Lianfa Song. Flux decline in crossflow microfiltration and ultrafiltration: mechanisms and modeling of membrane fouling , 1998 .
[30] P. Hugenholtz,et al. 'Microthrix parvicella' is a novel, deep branching member of the actinomycetes subphylum , 1995 .
[31] J. Wanner. Activated Sludge: Bulking and Foaming Control , 1994 .
[32] G. Daigger,et al. Manual on the causes and control of activated sludge bulking and foaming , 1992 .
[33] W. A. Pretorius,et al. Control of Biological Scum in Activated Sludge Plants by Means of Selective Flotation , 1987 .