Chemical Engineering, Issue 3This work covers reaction engineering, both chemical and biochemical, together with measurement and process control. Topics include: chemical reactor design; micro-organism and enzyme catalysis; engineering principles of biochemical reactors; and the principles and applications of process control. |
Contents
Reactor output | 1 |
6 | 105 |
GasLiquid and GasLiquidSolid Reactors | 196 |
Copyright | |
5 other sections not shown
Common terms and phrases
acid adiabatic amino-acids batch reactor biomass bubble column C₁ calculated catalyst cell chemical reaction CO₂ complex component continuous stirred-tank reactor control loop control system curve density diffusion dispersion electron element employed energy enzyme equilibrium equilibrium constant ethylbenzene example feed feedback fermenter first-order flowrate fluid frequency gas-liquid heat transfer Hence hydrogen inlet input instrument k₁ kg/m³ kinetics kmol/m³ liquid material balance maximum measured microbial molecules moles obtained operation output overall parameters particles phase plot plug flow pressure protein R₁ rate constant rate equation rate of reaction ratio reactant reaction rate sample Section sensor shown in Fig signal solid solution specific specific growth rate steady-state stream structure substrate substrate concentration surface temperature thermocouple tracer transducer transfer function tube tubular reactor unit volume V₁ valve variable velocity Vmax z-transform
