Chemical Reaction and Reactor EngineeringThis book presents an authoritative progress report that will remain germane to the topic and prove to be a substantial inspiration to further progress. It is valuable to academic and industrial practitioners of the art and science of chemical reaction and reactor engineering. |
Contents
Use of Residence and ContactTime Distributions | 63 |
Catalytic Surfaces and Catalyst Characterization Methods | 151 |
DiffusionReaction Interactions in Catalyst Pellets | 239 |
GasSolid Noncatalytic Reactions | 293 |
Design of FixedBed GasSolid Catalytic Reactors | 373 |
FluidizedBed Reactors | 441 |
GasLiquid Reactors | 545 |
GasLiquidSolid Reactors | 667 |
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Common terms and phrases
absorption adsorbed adsorption AIChE analysis axial dispersion behavior bubble columns calculated carbon Catal catalyst Chem chemical reaction coal cocurrent collocation concentration constant conversion correlation crystallite Deckwer density diameter diffusion dimensionless effectiveness factor electron energy equations EXAFS experimental FIGURE first-order reaction fixed-bed flow rate fluid fluidized bed flux fraction function gas holdup gas phase gas velocity gas-liquid gas-solid gaseous gasifier gradients heat transfer heat transfer coefficient heterogeneous hydrogen interfacial area isothermal kinetic liquid phase mass transfer coefficient measured mechanism methane method mixing molecules obtained operation oxidation oxygen packed beds parameters particles Péclet pellet plug flow polymer polymerization pore porous predict pressure problem radiation ratio reactant reaction rate reactor regime residence-time distribution solid solution species spectroscopy steady-state step-growth polymerization stirred tank surface technique temperature thermal tion tracer values volume volumetric zeolite