Bioreaction Engineering: Modeling and ControlK. Schügerl, K.-H. Bellgardt Springer Science & Business Media, 06.12.2012 - 604 Seiten The book is intended to present various examples for reactor and process modeling and control as well as for metabolic flux analysis and metabolic design at an ad vanced level. In Part A, General principles and techniques with regard to reactor and process models, process control, and metabolic flux analysis are presented. In addition the accuracy, precision, and reliability of the measured data are discussed which are ex tremely important for process modeling and control. A virtual bioreactor system is presented as well, which can be used for the training of students and operators of industrial plants and for the development of advanced automation tools. In Part B, the General principles are applied for particular bioreactor models. It covers the application of the computational fluiddynamic (CFD) technique to stirred tank and bubble column bioreactors. Different solution methods are presented: the Reynolds-averaging of the turbulent Navier-Stokes equations and modeling of the Reynolds stresses with an appropriate turbulence (k-ee) model, and the Euler (two fluid model), as well as the Euler-Langrange approaches. |
Inhalt
Introduction | 1 |
1 | 21 |
4 | 32 |
5 | 36 |
References | 41 |
1 | 44 |
2 | 56 |
3 | 73 |
Conclusions | 272 |
6 | 313 |
4 | 338 |
Conclusion | 345 |
5 | 363 |
7 | 369 |
Clemens Posten Ursula Rinas | 374 |
4 | 381 |
4 | 86 |
1 | 103 |
Klapa Gregory Stephanopoulos | 104 |
Accuracy and Reliability of Measured Data | 125 |
2 | 131 |
3 | 142 |
1 | 145 |
6 | 159 |
OnLine Simulation Techniques for Bioreactor Control Development | 167 |
5 | 175 |
7 | 188 |
9 | 194 |
10 | 202 |
Modeling and Simulation of GasLiquid Flow | 210 |
4 | 217 |
5 | 225 |
2 | 234 |
References | 244 |
Basic Equations of Motion | 251 |
4 | 264 |
6 | 387 |
3 | 412 |
4 | 421 |
References | 429 |
3 | 444 |
Dynamics of the Pentose Phosphate Pathway an Example | 453 |
Measurement of Intracellular CAMP | 459 |
Albert A de Graaf | 478 |
Metabolite Balancing | 485 |
4 | 501 |
Fundamentals of Intracellular Metabolic Flux Analysis | 509 |
Comparison of Fluxes During Growth and Lysine Production | 531 |
4 | 538 |
17 | 553 |
2 | 559 |
4 | 580 |
5 | 588 |
| 595 | |
Andere Ausgaben - Alle anzeigen
Bioreaction Engineering: Modeling and Control K. Schügerl,K.-H. Bellgardt Keine Leseprobe verfügbar - 2012 |
Bioreaction Engineering: Modeling and Control K. Schügerl,K.-H. Bellgardt Keine Leseprobe verfügbar - 2011 |
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aeration average baker's yeast balance equation batch beer fermentation biochemical biomass bioprocess bioreactor Biotechnol Bioeng bubble column budding calculated carbon cell cycle cell mass cell-specific Chem Eng Sci chemostat CO₂ component computational considered constant cultivation density described determined diacetyl dilution rate dispersion distribution dynamics energy enzyme estimation ethanol experimental data fed-batch feed fermentation flow rate fluid fraction function gas phase glucose hyphae impeller inhibition intracellular isotopomer k-ɛ model kinetics lactic acid limitation linear liquid phase Lübbert mass balance mass transfer maximum measurements medium metabolite microorganisms mixing obtained on-line simulation operation optimization oscillation parameters pathway plasmid product formation reaction rates Saccharomyces cerevisiae Sect segregated model shown in Fig specific growth rate stirrer stoichiometric structured models substrate uptake sugar temperature tion transport turbulent uptake rate variables vector velocity volume volumetric yield coefficients