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Membrane bioreactors system

Nagano, A., E. Arikawa, and H. Kobayashi (1992). The treatment of liquor wastewater containing high-strength suspended solids by membrane bioreactor system. Water Science and Technology 26 887-895. [Pg.277]

Sun X, Shi Y, Yu H, and Shen Z. Bioconversion of acrylnitrile to acrylamide using hollow-fiber membrane bioreactor system. Biochem Eng J, 2004 18(3) 239-243. [Pg.407]

Song K-G, Choung Y-K, Ahn K-H, Cho J, and Yun H. Performance of membrane bioreactor system with sludge ozonation process for minimization of excess sludge production. Desalination. 2003 157 353-359. [Pg.1022]

Pekdemir, T. Keskinler, B. Yildiz, E. Akay, G. Process intensification in wastewater treatment ferrous iron removal by a sustainable membrane bioreactor system. J. Chem. Technol. Biotechnol. 2003, 78, 773-780. [Pg.197]

Tabak HH, Govind R. Advances in biotreatment of acid mine drainage and biorecovery of metals. 2. Membrane bioreactor system tor sulfate reduction. Biodegradation 2003 14 437-452. [Pg.272]

Membrane bioreactors have been modelled using approaches that have proven successful in the more conventional catalytic membrane reactor applications. The simplest membrane bioreactor system, as noted in Chapter 4, consists of two separate units, a bioreactor (typically a well-stirred batch reactor) coupled with an external hollow fiber or tubular or flat membrane module. These reactors have been modelled by coupling the classical equations of stirred tank reactors with the mathematical expressions describing membrane permeation. What makes this type of modelling unique is the complexity of the mecha-... [Pg.213]

Chapter 3 is devoted to the topic of pervaporation membrane reactors. These are unique systems in that they use a liquid feed and a vacuum on the permeate side they also mostly utilize polymeric membranes. Chapter 4 presents a survey of membrane bioreactor processes these couple a biological reactor with a membrane process. Reactions studied in such systems include the broad class of fermentation-type or enzymatic processes, widely used in the biotechnology industry for the production of amino acids, antibiotics, and other fine chemicals. Similar membrane bioreactor systems are also fin-... [Pg.257]

Tire Zee Weed submerged-membrane technology and equipment for the project was provided by GE Water. Process Technologies. GE s Zee Weed membrane bioreactor systems combine ultiafiltration technology w ith biological treatment for municipal, commercial and industrial wastewater treatment and water reuse applications,... [Pg.6]

Tlie membrane bioreactor system incorporates reinforced hollow fibre membranes which GE says are specifically designed to meet the requirements of wastewater treatment. [Pg.6]

Fig. 14.4.1.2. Schematic diagram of a two-phase hollow-fiber membrane bioreactor system for hydrolytic epoxide resolution. [After reference 8]. The yeast cells contain an epoxide hydrolase that enantioselectively hydrolyzes racemic epoxide resulting in enantiopure epoxide that partitions to the organic phase. Diol produced partitions to the water phase. Fig. 14.4.1.2. Schematic diagram of a two-phase hollow-fiber membrane bioreactor system for hydrolytic epoxide resolution. [After reference 8]. The yeast cells contain an epoxide hydrolase that enantioselectively hydrolyzes racemic epoxide resulting in enantiopure epoxide that partitions to the organic phase. Diol produced partitions to the water phase.
I, 000 Da 90-LMWCOSs, 75-LMWCOSs, and 50-LMWCOSs) were prepared using an ultrafiltra-tion membrane bioreactor system. ACE inhibitory activity was increased with decreasing deacetylation of COSs, and 50-MMWCOSs exhibited the highest ACE inhibitory activity (Table 20.1). These results suggest that ACE inhibitory activity of hetero-COSs is dependent on the DD as well as the molecular size. [Pg.266]

Attaway, H., Gooding, C. H. and Schmidt, M. G. 2001. Biodegradation of BTEX vapors in a silicone membrane bioreactor system. Journal of Industrial Microbiology and Biotechnology, 26,316-325. [Pg.796]

Malamis, S. Andreadakis, A. (2009) Fractionation of proteins and carbohydrates of extracellular polymeric substances in a membrane bioreactor system Bioresource Technology, 100,3350-3357. [Pg.290]

Danner H, Madzingaidzo L, Thomasser C, Neureiter M, Braun R (2002) Thermophilic production of lactic acid using integrated membrane bioreactor systems coupled with monopolar electrodialysis. Appl Microbiol Biotechnol 59(2-3) 160-169. doi 10.1007/s00253-002-0998 ... [Pg.264]

Further Topics in Appiication Technology Membrane Bioreactor System... [Pg.120]

Hashimoto, T., Okamura, D., Murakami, T., and Ohta, S. (2004). Running cost reduction of membrane bioreactor system using a newly cylindrical membrane module. In Abstracts of the 41th Sewage Technology Conference. Japan Sewage Works Association, Yokohama, Japan, pp. 762-764. [Pg.128]

DeCarolis, J. F., Hirani, Z., Adham, S. S., Tran, N., and Lagos, S. (2006). Commercially available membrane bioreactor systems. In S. S. Adham (Ed.), Proceedings of Short Course on Membrane Bioreactors. National Water Research Institute, Anaheim, pp. 11-17. [Pg.269]

T.H. Bae, T.M. Tak, Preparation of TiOj self-assembled polymeric nanocomposite membranes and examination of their fouling mitigation effects in a membrane bioreactor system, J Memb Sci, 266 (2005) 1-5. [Pg.653]

See other pages where Membrane bioreactors system is mentioned: [Pg.385]    [Pg.503]    [Pg.122]    [Pg.942]    [Pg.755]    [Pg.273]    [Pg.642]   
See also in sourсe #XX -- [ Pg.902 ]



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