【英文原版书籍】The Engineering of Chemical Reactions 【Oxford University 】

  ISBN: 0195105885
Title: The Engineering of Chemical Reactions (Topics in Chemical Engineering)
Author: Lanny D. Schmidt
Publisher: Oxford University Press, USA
Publication Date: 1997-12-01
Number Of Pages: 560

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PASSWORD: A12we06tEoCr1

General Contents:

Fundamentals
- Introduction
-- Chemical Reactors
-- Chemical Reaction Engineering
-- Industrial Processes
-- Modeling
- Reaction Rates, The Batch Reactor, and the Real World
-- Chemical Reactions
-- Multiple Reactions
-- Reaction Rates
-- Approximate Reactions
-- Rate Coefficients
-- Elementary Reactions
-- Stoichiometry
-- Reaction Rates Near Equilibrium
-- Reactor Mass Balances
-- The Batch Reactor
-- Variable Density
-- Chemical Reactors
-- Thermodynamics and Reactors
-- Adiabatic Reactor Temperature
-- Chemical Equilibrium
-- Petroleum Refining
-- Polyester from Refinery Products and Natural Gas
-- Reaction-Rate Data
- Single Reactions in Continuous Isothermal Reactors
-- Continuous Reactors
-- The Continuous Stirred Tank Reactor
-- Conversion in a Constant-Density CSTR
-- The Plug-Flow Tubular Reactor
-- Conversion in a Constant-Density PFTR
-- Comparison Between Batch, CSTR and PFTR
-- The 1/r Plot
-- Semibatch Reactors
-- Variable-Density Reactors
-- Space Velocity and Space Time
-- Chemical Reactors in Series
-- Autocatalytic Reactions
-- Reversible Reactions
-- Trasients in Continuous Reactors
-- Some Important Single-Reaction Processes: Alkane Activation
-- Synthesis Gas Reactions
-- Staged Reactors
-- The Major Chemical Companies
-- Reactor Design for a Single Reaction
- Multiple Reactions in Continuous Reactors
-- The Petrochemical Industry
-- Olefins
-- Mass Balances
-- Conversion, Selectivity and Yield
-- Complex Reaction Networks
-- Series Reactions
-- Parallel Reactions
-- Multiple Reactions with Variable Density
-- Real Reaction Systems and Modeling
-- Approximate Rate Expressions for Multiple-Reaction Systems
-- Simplified Reactions
-- Reaction Mechanisms
-- Collision Theory of Bimolecular Reactions
-- Activated Complex Theory
-- Designing Reactors for Multiple Reactions
- Nonisothermal Reactors
-- Heat Generation and Removal
-- Energy Balance in a CSTR
-- Energy Balance in a PFTR
-- Equations to be Solved
-- Heat Removal or Addition to Maintain a Reactor Isothermal
-- Adiabatic Reactors
-- Trajectories and Phase-Plane Plots
-- Trajectories of Wall-Cooled Reactors
-- Exothermic Versus Endothermic Reactions
-- Other Tubular Reactor Configurations
-- The Temperature Profiles in a Packed Bed
- Multiple Steady States and Transients
-- Heat Generation and Removal in a CSTR
-- Adiabatic CSTR
-- Stability of Steady States in a CSTR
-- Observation of Multiple Steady States
-- Transients in the CSTR with Multiple Steady States
-- Other Reactions in a CSTR
-- Variable Coolant Temperature in a CSTR
-- Designing Reactors for Energy Management
- Catalytic Reactors and Mass Transfer
-- Catalytic Reactions
-- Catalytic Reactors
-- Surface and Enzyme Reaction Rates
-- Porous Catalysts
-- Transport and Reaction
-- Mass Transfer Coefficients
-- External Mass Transfer
-- Pore Diffusion
-- Temperature Dependence of Catalytic Reaction Rates
-- The Automotive Catalytic Converter
-- The Catalytic Wall Reactor
-- Langmuir-Hinshelwood Kinetics
-- A Summary of Surface Reaction Kinetics
-- Designing Catalytic Reactors
-- Electrochemical Reactors
-- Real Catalytic Reactors
-- Bioreactors
-- The Human Reactor
Applications
-- Designing a Chemical Reactor and Introduction to Applications
-- Stages of Design
- Nonideal Reactors, Bioreactors and Environmental Modeling
-- The "Complete" Equations
-- Reactor Mass and Energy Balances
-- Residence Time Distribution
-- Laminar Flow Tubular Reactors
-- Dispersion in Tubular Reactors
-- Recycle Reactors
-- CSTRs in Series
-- Diagnosing Reactors
-- Modeling the Environment
-- Cell Cultures and Ecological Modeling
- Reactions of Solids
-- Reactions Involving Solids
-- Chemical Vapor Deposition and Reactive Etching
-- Solids Reactors
-- Reaction Rates of Solids
-- Films, Spheres and Cylinders
-- Macroscopic and Microscopic Solids
-- Dissolving and Growing Films
-- Dissolving and Growing Spheres
-- Diffusion Through Solid Films
-- Transformation of Spheres
-- Electrical Analogy
- Chain Reactors, Combustion Reactors and Safety
-- Chain Reactions
-- Characteristics of Chain Reactions
-- Autooxidation and Lab Safety
-- Chemical Synthesis by Autooxidation
-- Combustion
-- Hydrogen Oxidation
-- Chain Branching Reactions
-- Alkane Oxidation
-- Thermal Ignition
-- Thermal and Chemical Autocatalysis
-- Premixed Flames
-- Diffusion Flames
-- Energy Generation
-- Combustion of Liquids and Solids
-- Solid and Liquid Explosives
-- Explosions and Detonations
-- Reactor Safety
- Polymerization Reactions and Reactors
-- Ideal Addition Polymerization
-- Polyolefins
-- Free-Radical Polymerization
-- Catalytic Polymerization
-- Condensation Polymerization
-- Fisher Tropsch Polymerization
-- Polymerization Reactors
-- Forming Polymers
-- Integrated Polymer Processing
-- Crystallization
- Multiphase Reactors
-- Types of Multiphase Reactors
-- Mass Transfer Reactors
-- Mass Balance Equations
-- lnterfacial Surface Area
-- Mass Transfer between Phases
-- Multiphase Reactor Equations
-- Equilibrium between Phases
-- Membrane Reactors
-- Falling Film Reactor
-- Bubble Column Reactors
-- Falling Film Catalytic Wall Reactor
-- Trickle Bed Reactor
-- Multiphase Reactors with Catalysts
-- Other Multiphase Reactors
-- Analysis of Multiphase Reactors
-- Reactor-Separation Integration
-- Catalytic Distillation
-- Chromatographic Reactors
-- Iron Ore Refining
-- The Petroleum Refinery