- Page 1 and 2: Lebenswissenschaften Life Sciences
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- Page 9 and 10: Contents 3.4. Application: L-Valine
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- Page 13 and 14: 1. Introduction need for improved m
- Page 15 and 16: 2. Theory In a batch process, all s
- Page 17 and 18: 2. Theory 1997; Goncalves et al., 2
- Page 19 and 20: 2. Theory For batch fermentations,
- Page 21 and 22: 2. Theory with Yps being the yield
- Page 23 and 24: 2. Theory Inhibition Some catalytic
- Page 25 and 26: 2. Theory The method of least squar
- Page 27 and 28: 2. Theory evaluation can be made by
- Page 29 and 30: 2. Theory We define the measured or
- Page 31 and 32: 2. Theory build in the model. An ob
- Page 33 and 34: 2. Theory nations, the researcher i
- Page 35 and 36: 2. Theory W = J · Covθ · J T (2.
- Page 37 and 38: 2. Theory arg max ξ � m� m�
- Page 39 and 40: 2. Theory with all measured values
- Page 41 and 42: 2. Theory which can be estimated us
- Page 43 and 44: 2. Theory One option to account for
- Page 45 and 46: 2. Theory θ 2 $θ 2 0 area ≅ det
- Page 47 and 48: 2. Theory designed using a paramete
- Page 49 and 50: 2. Theory proteome14 (Hermann et al
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3. Dynamic Modeling Framework itera
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3. Dynamic Modeling Framework 3.3.
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3. Dynamic Modeling Framework 3.3.3
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3. Dynamic Modeling Framework 52 du
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3. Dynamic Modeling Framework the c
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3. Dynamic Modeling Framework For d
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3. Dynamic Modeling Framework subse
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3. Dynamic Modeling Framework 60
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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4. Simulative Comparison of Model D
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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5. L-Valine Production Process Deve
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A. Nomenclature Table A.1.: Symbols
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Table A.1.: Symbols and Abbreviatio
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Table A.1.: Symbols and Abbreviatio
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B. Ratio between OD600 and Dry Weig
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C. The Influence of the Oxygen Supp
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The measurements of amino acids and
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kiv [mM] lac [mM] 15 10 5 0 0 10 20
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OTR, CTR 0.06 0.04 0.02 0 0 10 20 3
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DO properly at a low value in dynam
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D. Dilution for Measurement of Amin
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E. Models used in the First Model D
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Model 1.6 Model 1.6 is similar to m
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Table E.1: Model Parameters of the
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Table E.2: Model Parameters of the
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161
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Model 2.2 Model 2.2 is similar to m
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Table F.1.: Model Parameters of the
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Table F.2.: Estimated Lag-Times of
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Table F.3: Model Parameters of the
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Table F.4.: Estimated Lag-Times of
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G. Alternative Off-line Optimized P
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G.2. Overall Yield of Product on Su
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Summary Fast development of product
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Zusammenfassung Es ist wichtig, die
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Acknowledgements This thesis result
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Bibliography K. Akashi, H. Shibai,
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Bibliography A. Bodalo-Santoyo, J.L
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Bibliography A.J. Cooper, J.Z. Gino
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Bibliography A.G. Fredrickson, R.D.
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Bibliography W.G. Hunter and A.M. R
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Bibliography A.C. McHardy, A. Tauch
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Bibliography E. Radmacher, A. Vaits
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Bibliography K.J. Versyck, J.E. Cla
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