Results 251 to 260 of about 934,379 (291)
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Growth kinetics of epsomite (MgSO4·7H2O)
Journal of Crystal Growth, 1987Abstract Growth isotherms of the most important F forms ({110}, {010}, {111}, { 1 1 1 } and {100}) of epsomite were measured on single crystals growing from pure aqueous solution at 30 and 40°C. The results are discussed and compared with previously reported data.
G. SGUALDINO +3 more
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Growth Mechanisms and Growth Kinetics of Filamentous Microorganisms
Critical Reviews in Biotechnology, 1991Filamentous microorganisms are of major biotechnological importance, being responsible for production of the majority of secondary metabolites, particularly antibiotics. Two main groups are involved, filamentous fungi and filamentous actinomycetes, particularly the streptomycetes.
J I, Prosser, A J, Tough
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growth kinetics ofbacillus stearothermophilus BR219
Applied Biochemistry and Biotechnology, 1991Bacillus stearothermophilus BR219, a phenol-resistant thermophile, can convert phenol to the specialty chemical catechol. The growth kinetics of this organism were studied in batch, continuous, and immobilized-cell culture. Batch growth was insensitive to pH between 6.0 and 8.0, but little growth occurred at 5.5.
R M, Worden +4 more
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Multiscaling in Growth Kinetics
Europhysics Letters (EPL), 1989An exact analytical solution of the time-dependent Ginzburg-Landau model in the large-N limit is presented for a quench to zero temperature. Standard dynamic scaling is obeyed when the order parameter is not conserved, while a novel form of scaling, due to two (marginally different) divergent lengths and characterized by infinitely many growth ...
A Coniglio, M Zannetti
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Growth Kinetics of Photosynthetic Microorganisms
1982Needless to say, any studies on photosynthetic microorganisms should be accompanied by a proper assessment of microbial absorption of light energy whatever the purposes of these works might be — biomass production, analysis of excessive growth of blue- green algae in waters, evaluation of light-energy conversion efficiency, etc.
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Kinetics of deterrence of gompertzian growth
Bulletin of Mathematical Biology, 1983Kinetic equations for the action of a reagent on a population which is increasing by Gompertzian growth are solved by a combination of analytical and numerical methods for both dilute distributions and cellular aggregates. For the aggregates an empirical function controlling extent of diffusion is used with external reagent concentration held constant,
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The growth kinetics ofB. subtilis
Antonie van Leeuwenhoek, 1993There has been considerable discussion by Kubitschek and Cooper concerning the growth rate of cells of E. coli throughout the cell cycle. Consequently, it is relevant to test Kubitschek's linear model against the exponential model espoused by Cooper (and many others) with another organism and another technique. Burdett et al.
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2003
In chapters 3 and 5 we have discussed how the two important design parameters yield and productivity can be derived from experimental data, e.g. from measurements of the substrate consumption and the product formation. Furthermore, we have shown how measured steady state rates (or fluxes) in and out of the cell can be used to calculate the fluxes ...
Jens Nielsen +2 more
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In chapters 3 and 5 we have discussed how the two important design parameters yield and productivity can be derived from experimental data, e.g. from measurements of the substrate consumption and the product formation. Furthermore, we have shown how measured steady state rates (or fluxes) in and out of the cell can be used to calculate the fluxes ...
Jens Nielsen +2 more
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