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Thermodynamics and Stoichiometry for Bioreactor Design
6 other sections not shown
acid acid dissociation constant activity aerobic aqueous batch culture biological reactor bioreactor bioreactor design C-mole carbon cell concentration cell growth cell multiplication cell population cellulose competitive inhibition complex component concentration of cells concentration of reactant constant in Equation conversion CSTR denaturation determined diffusion dilution rate effluent enzymatic reactions enzyme kinetics enzyme systems ethanol feed rate Figure first-order flow rate gas phase gas-liquid interface Gibbs free energy growth phase heat inhibition constant integration irreversible J/mol Levenspiel light intensity liquid phase mass transfer mass-transfer coefficient mass-transfer limitations maximum medium membrane Michaelis constant Michaelis-Menten kinetics mixed inhibition models mol/cm3 mol/L molar mole fraction Monod equation Monod-type oxygen particle pellet plot plug-flow reactor pressure processes rate constant rate equation reaction mixture reaction rate reactor design recycle relationship solution specific growth rate steady-state stoichiometric substrate concentration substrate inhibition surface temperature thermodynamic transport types usually values volumetric Yield factors zero