## Bioprocess technology: modelling and transport phenomena |

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### Contents

Conservation laws of mass and energy | 10 |

Summary and objectives | 45 |

Transport mechanisms of mass energy and momentum | 48 |

Copyright | |

12 other sections not shown

### Common terms and phrases

acid aerobic analogy biomass bioreactor C-mol calculate cells chapter chemical compounds coconut-oil component concentration gradient constant convective density described determine diameter diffusion coefficient dimensional analysis dimensionless numbers electron elemental conservation energy balance enzyme enzyme kinetics Equation ethanol example Figure flow rate fluid flux Gibbs Gibbs free energy glucose heat flow heat production heat transfer coefficient heat transport Hence inhibitor interface intracellular isopropanol layer liquid macroscopic balance mass balance mass flow mass transfer coefficient mass transport mathematical metabolic micro-organisms microbial growth microbial system mol h"1 mole molecular molecules momentum N-source naphthalene net-conversion rates oxygen parameters phase pipe pressure product formation pseudo-steady ratio reaction reactor relationship relevant compounds Reynolds number solution specific growth rate steady-state stoichiometric coefficients substrate tank temperature thermal energy tube turbulent unit vapour velocity vessel viscosity volume volumetric flow rate