Chemical Reaction EngineeringAn improved and simplified edition of this classic introduction to the principles of reactor design for chemical reactions of all types—homogeneous, catalytic, biochemical, gas, solid, extractive, etc. Adds new material on systems of deactivating catalysts, flow modeling and diagnosis of the ills of operating equipment, and new simple design procedures for packed bed and fluidized bed reactors. |
Contents
Thermodynamics 233557 | 2 |
KINETICS OF HOMOGENEOUS REACTIONS | 8 |
INTERPRETATION OF BATCH REACTOR DATA | 41 |
Copyright | |
14 other sections not shown
Common terms and phrases
activation energy batch reactor bubble C₁ catalyst Chapter Chem chemical reaction component composition concentration consider controls conversion countercurrent curve deactivation dispersion E₁ elementary reactions endothermic equilibrium example exit stream exothermic exothermic reactions experimental feed rate FIGURE first-order reaction flow rate fluid fluidized bed fractional yield gas film given gives gm/min heat hence homogeneous integral intermediate isothermal k₁ k₂ kinetics liquid macrofluid mass transfer material balance mixed flow reactor mixed reactor mol/liter molecules moles multiple reactions obtain operations optimum packed bed particles pellet performance equation phase plug flow reactor pore diffusion problem product distribution r₁ rate constant rate equation rate expression rate of reaction ratio reactant reacting reaction rate recycle resistance shown in Fig shows slope solids solution stoichiometry surface tank temperature tracer unreacted versus vessel volume X₁ ΧΑ Сло