338
Chapter 8
REFERENCES
Bailey, J. E. and Ollis, D. F. (1986).
Biochemical Engineering Fundamentals,
2nd ed., McGraw-Hill, New York.
Cazzador, L. (1991). Analysis of oscillations in yeast continuous cultures by a new simplified model,
Bull Math. Biol.
5,685-700.
Christiansen, T., Spohr, A., Nielsen, J. (1999). On-line study of growth kinetics of single hyphae of
Aspergillus oryzae
in a flow-
through cell.
Biotechnol. Bioeng.
63, 147-153
Hjortso, M. A. and Bailey, J. E. (1982). Steady-state growth ofbudding yeast populations in well-mixed continuous-flow microbial
reactors,
Math. Biosci.
60,235-263.
Hjortso, M. A. and Bailey, J. E. (1983). Transient responses of budding yeast populations.
Math, Biosci.
63, 121-148.
Hjortsa, M. A. and Bailey, J. E. (1984a). Plasmid stability in budding yeast populations: Steady state growth with selection pressure.
Biotechnol Bioeng.
26, 528-536.
Hjortso, M. A, and Bailey, J. E. (1984b) Plasmid stability in budding yeast populations: Dynamics following a shift to nonselective
medium.
Biotechnol. Bioeng.
26,814-819.
Kothari, I. R., Martin, G. C., Reilly, P. J., Martin, P. J., and Eakman, J. M. (1972) Estimation of parameters in population models for
Schizosaccharomyces pombe
from chemostat data.
Biotechnol. Bioeng.
14,915-938.
Eakman, J. M., Fredrickson, A. C., and Tsuchiya, H. M. (1966) Statistics and dynamics of microbial cell populations.
Chem. Eng.
Prog. Symp. Ser.
62, 37-49.
Krabben, P., Nielsen, J„ Michelsen, M. L. (1997). Analysis of single hyphal growth and fragmentation in submerged cultures
using a population model.
Chem. Eng. Sci.
52,2641-2652
Kreyszig, E. (1988).
Advanced Engineering Mathematics.
6th ed., John Wiley & Sons, New York.
Lievense, J. C. and Lim, H. C. (1982). The growth and dynamics of
Saccharomyces cerevisiae, Ann. Report Perm. Proc.
5,211 - 262.
M et
2
, B,(1976)
From Pulp to Pellet,
Ph .D. thesis. Tech meal University of Delft, Delft
Metz, B., Bruijn, E. W., and van Suijdam, J. C. (1981) Method for quantitative representation of the morphology of molds,
Biotechnol Bioeng.
23,149- 162.
Nielsen, J, (1993). A simple morphologically structured model describing the growth of filamentous microorganisms.
Biotechnol
Bioeng.
41, 715 -727.
Ramkrishna, D. (1979) Statistical models for cell populations.
Adv. Biochem. Eng.
11, 1
- 48.
Ramkrishna, D. (198 5) The status of population balances.
Rev. Chem. Eng.
3,49 - 95.
Seo, J.-H. and Bailey, J. E. (1985) A segregated model for plasmid content on growth properties and cloned gene product formation
in
Escherichia colt. Biotechnol Bioeng.
27, 156 - 166.
Singh, P. N. and Ramkrishna, D. (1977). Solution of population balance equations by MWR.
Comp. Chem. Eng.
1,23 - 31.
Spohr, A. B., Mikkelsen, C. D., Carlsen, M., Nielsen, J., Villadsen, J. (1998). On-line study of fungal morphology during
submerged growth in a small flow-through cell.
Biotechnol. Bioeng.
58, 541 -553
Subramanian, G. and Ramkrishna, D. (1971) On the solution of statistical models of cell populations.
Math. Biosci.
10,1 - 23.
van Suijdam, J. C. and Metz, B. (1981). Influence of engineering variables upon the morphology of filamentous molds.
Biotechnol
Bioeng.
23, 111-148.
previous page 361 Bioreaction Engineering Principles, Second Edition  read online next page 363 Bioreaction Engineering Principles, Second Edition  read online Home Toggle text on/off