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Chapter 6. How Cells Grow 6.1 INTRODUCTION (6.1) (6.2a) (6.2b) (6.3)
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6.2. BATCH GROWTH Quantifying Cell Concentration Determining cell number density
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6.2.1. Quantifying Cell Concentration
Determining mass concentration
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6.2.1. Quantifying Cell Concentration
Determining mass concentration (6.4)
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6.2.2. Growth patterns and Kinetics in Batch Culture
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6.2.2. Growth patterns and Kinetics in Batch Culture
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6.2.2. Growth patterns and Kinetics in Batch Culture
(6.5) (6.6) (6.7) (6.8)
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6.2.2. Growth patterns and Kinetics in Batch Culture
(6.9) (6.10)
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6.2.2. Growth patterns and Kinetics in Batch Culture
(6.11) (6.12) (6.13) (6.14) (6.15)
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6.2.2. Growth patterns and Kinetics in Batch Culture
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6.2.2. Growth patterns and Kinetics in Batch Culture
(6.16) (6.17) (6.18)
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6.2.2. Growth patterns and Kinetics in Batch Culture
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6.2.2. Growth patterns and Kinetics in Batch Culture
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6.2.3. How Environmental Conditions Affect Growth Kinetics
(6.19) (6.20)
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6.2.3. How Environmental Conditions Affect Growth Kinetics
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6.2.3. How Environmental Conditions Affect Growth Kinetics
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6.2.3. How Environmental Conditions Affect Growth Kinetics
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6.2.3. How Environmental Conditions Affect Growth Kinetics
(6.21) (6.22) (6.23) (6.24)
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6.2.3. How Environmental Conditions Affect Growth Kinetics
(6.25) (6.26)
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6.2.4. Heat Generation by Microbial Growth
(6.28) (6.29)
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6.2.4. Heat Generation by Microbial Growth
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth. (6.30)
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth.
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth. (6.31) (6.32)
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth. (6.33) (6.34) (6.35) (6.36)
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth.
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6.3.2. Heat Generation by Microbial Growth
Substrate-Limited growth. (6.37) (6.38)
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6.3.2. Heat Generation by Microbial Growth
Models with growth inhibitors. (6.39) (6.40) (6.41)
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6.3.2. Heat Generation by Microbial Growth
Models with growth inhibitors. (6.42) (6.43) (6.44) (6.45)
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6.3.2. Heat Generation by Microbial Growth
Models with growth inhibitors. (6.46) (6.47) (6.48)
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6.3.2. Heat Generation by Microbial Growth
Models with growth inhibitors. (6.49)
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6.3.2. Heat Generation by Microbial Growth
The logistic equation. (6.50) (6.51) (6.52) (6.53)
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6.3.2. Heat Generation by Microbial Growth
The logistic equation. (6.54) (6.55) (6.56)
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6.3.2. Heat Generation by Microbial Growth
Growth models for filamentous organisms. (6.57) (6.58a) (6.58b) (6.59)
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6.3.3. Models for Transient Behavior
Chemically structured models.
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6.3.3. Models for Transient Behavior
Chemically structured models.
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6.3.3. Models for Transient Behavior
Chemically structured models. (6.60)
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6.3.3. Models for Transient Behavior
Chemically structured models. (6.61) (6.62a) (6.62b) (6.63)
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6.4.2. Some Specific Devices for Continuous Culture
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6.4.2. Some Specific Devices for Continuous Culture
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The Ideal Chemostat
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The Ideal Chemostat (6.64) (6.65) (6.66)
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The Ideal Chemostat (6.67) (6.68)
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The Ideal Chemostat (6.69) (6.70) (6.71) (6.72)
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The Ideal Chemostat (6.73a) (6.73b) (6.73c)
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The Ideal Chemostat (6.74) (6.75a) (6.75b) (6.76) (6.77)
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The Ideal Chemostat (6.78) (6.79)
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The Ideal Chemostat
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The Ideal Chemostat (6.80) (6.81)
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The Ideal Chemostat (6.78) (6.82) (6.83)
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6.4.5. Deviations from Ideality
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