Hydromechanical stress in shake flasks: Correlation for the maximum local energy dissipation rate
Author:
Publisher
Wiley
Subject
Applied Microbiology and Biotechnology,Bioengineering,Biotechnology
Reference66 articles.
1. Device for sterile online measurement of the oxygen transfer rate in shaking flasks
2. Online respiration activity measurement (OTR, CTR, RQ) in shake flasks
3. Effect of dispersed-phase viscosity on the maximum stable drop size for breakup in turbulent flow.
4. Oxygen Absorption Rates in Shaken Flasks
5. Drop break-up in intermittent turbulence: Maximum stable and transient sizes of drops
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