Results 311 to 320 of about 127,630 (343)
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2011
In this article, membrane bioreactor principles and applications will be discussed. In particular, the properties and applications of bioartificial hybrid membrane systems used in biotechnological and medical fields will be emphasized. In the first part, we focus on general aspects of membrane bioreactors, including some highlights on membrane ...
L Giorno, L De Bartolo, E Drioli
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In this article, membrane bioreactor principles and applications will be discussed. In particular, the properties and applications of bioartificial hybrid membrane systems used in biotechnological and medical fields will be emphasized. In the first part, we focus on general aspects of membrane bioreactors, including some highlights on membrane ...
L Giorno, L De Bartolo, E Drioli
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Biotechnology and Bioengineering, 1990
AbstractThe fluid dynamic design and characterization of a low mechanical stress agitator and bioreactor vessel for large‐scale bioprocessing using anchorage dependent mammalian cells is considered. The complex and fragile nature of mammalian cells puts stringent constraints on the design of agitators for stirred tank bioreactors. Traditional agitators
S. Schreck +2 more
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AbstractThe fluid dynamic design and characterization of a low mechanical stress agitator and bioreactor vessel for large‐scale bioprocessing using anchorage dependent mammalian cells is considered. The complex and fragile nature of mammalian cells puts stringent constraints on the design of agitators for stirred tank bioreactors. Traditional agitators
S. Schreck +2 more
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Modelling of bioreactors [PDF]
Transactions of the Institute of Measurement and Control, 1986 Biochemical reactors pose special problems in that they are essentially concerned with living systems. The consequences of this is that the bio transformations are complex and require detailed consideration, especially since instabilities can easily occur if the concentration of species is not controlled carefully.
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Bioreactors: Design and Operation
Science, 1983The bioreactor provides a central link between the starting feedstock and the product. The reaction yield and selectivity are determined by the biocatalyst, but productivity is often determined by the process technology; as a consequence, biochemical reaction engineering becomes the interface for the biologist and engineer.
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Bioprocess and Biosystems Engineering, 2001
Analysis of bioreactors is central for successful design and operation of biotechnical processes. The bioreactor should provide optimum conditions, with respect to temperature, pH and substrate condition, for example, besides its basic function of containment. The ability to control the substrate concentration is an important function of the bioreactor.
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Analysis of bioreactors is central for successful design and operation of biotechnical processes. The bioreactor should provide optimum conditions, with respect to temperature, pH and substrate condition, for example, besides its basic function of containment. The ability to control the substrate concentration is an important function of the bioreactor.
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2012
Publisher Summary Integrating the properties of membranes with biological catalysts such as cells or enzymes forms the basis of a membrane bioreactor, which is an important technology advancing rapidly around the world in both research and commercial applications.
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Publisher Summary Integrating the properties of membranes with biological catalysts such as cells or enzymes forms the basis of a membrane bioreactor, which is an important technology advancing rapidly around the world in both research and commercial applications.
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2011
An enzyme bioreactor is a device within which biochemical transformations or reactions are performed by the catalysis of enzymes to generate the expected products under mild conditions. It is extensively used in food processing, industrial biotransformation, pharmaceutical processing, biosensors, and so on.
C. Zhang, X.-H. Xing
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An enzyme bioreactor is a device within which biochemical transformations or reactions are performed by the catalysis of enzymes to generate the expected products under mild conditions. It is extensively used in food processing, industrial biotransformation, pharmaceutical processing, biosensors, and so on.
C. Zhang, X.-H. Xing
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Fouling in membrane bioreactors: An updated review.
Water Research, 2017F. Meng +5 more
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2011
Bioreactor is the core of biological processes. The biological systems involved include enzymes, microorganisms, animal cells, plant cells, and tissues. To design an appropriate bioreactor for a particular bioprocess, intensive studies on the biological system, such as cell growth, metabolism, genetic manipulation, and protein or other product ...
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Bioreactor is the core of biological processes. The biological systems involved include enzymes, microorganisms, animal cells, plant cells, and tissues. To design an appropriate bioreactor for a particular bioprocess, intensive studies on the biological system, such as cell growth, metabolism, genetic manipulation, and protein or other product ...
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2011
Single-use bioreactors (SUBs) show clear benefits compared to the traditional fixed glass and steel bioreactor equipment used for bioprocessing. Reduction of validation efforts, sterilization in advance, and ease of use have a positive impact on costs and timelines for the development of biopharmaceuticals.
N.M.G. Oosterhuis +4 more
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Single-use bioreactors (SUBs) show clear benefits compared to the traditional fixed glass and steel bioreactor equipment used for bioprocessing. Reduction of validation efforts, sterilization in advance, and ease of use have a positive impact on costs and timelines for the development of biopharmaceuticals.
N.M.G. Oosterhuis +4 more
openaire +2 more sources