Elements of Chemical Reaction Engineering (6th Ed.)
H. Scott Fogler
1 Mole Balances
1.1 The Rate of Reaction
1.2 The General Mole Balance Equation (GMBE)
1.3 Batch Reactors (BRs)
1.4 Continuous-Flow Reactors
2 Conversion and Reactor Sizing
2.3 Design Equations for Flow Reactors
2.4 Sizing Continuous Flow Reactors
2.5 Reactors in Series
2.6 Some Further Definitions
3 Rate Laws
3.1 Basic Definitions
3.2 The Rate Law
3.3 The Reaction Rate Constant
3.4 Molecular Simulations
4 Stoichiometry
4.1 Batch Reactors (BRs)
4.2 Flow Systems
4.3 Reversible Reactions and Equilibrium Conversion
5 Isothermal Reactor Design: Conversion
5.2 Batch Reactors (BRs)
5.3 Continuous-Stirred Tank Reactors (CSTRs)
5.4 Tubular Reactors
6 Isothermal Reactor Design: Moles and Molar Flow Rates
6.4 Membrane Reactors
6.6 Semibatch Reactors
7 Collection and Analysis of Rate Data
7.3 Integral Method
7.4 Differential Method of Analysis
7.5 Nonlinear Regression
7.6 Reaction Rate Data from Differential Reactors
8 Multiple Reactions
8.1 Definitions
8.3 Parallel Reactions
8.4 Reactions in Series
8.5 Complex Reactions
8.6 Membrane Reactors to Improve Selectivity in Multiple Reactions
9 Reaction Mechanisms, Pathways, Bioreactions, Bioreactors
9.1 Active Intermediates and Nonelementary Rate Laws
9.2 Enzymatic Reaction Fundamentals
9.3 Inhibition of Enzyme Reactions
9.4 Bioreactors and Biosynthesis
10 Catalysis and Catalytic Reactors
10.1 Catalysts
10.2 Steps in a Catalytic Reaction
10.3 Synthesizing a Rate Law, Mechanism and Rate-Limiting Step
10.4 Heterogeneous Data Analysis for Reactor Design
10.7 Catalyst Deactivation
11 Nonisothermal Reactor Design
11.1 Rationale
11.2 The Energy Balance
11.3 The User-Friendly Energy Balance Equations
11.4 Adiabatic Operation
11.5 Adiabatic Equilibrium Conversion
11.6 Reactor Staging with Interstage Cooling or Heating
11.7 Optimum Feed Temperature
12 Steady-State Nonisothermal Reactor Design
12.1 Flow Reactors with Heat Exchange
12.2 Balance on the Heat Transfer Fluid
12.3 Examples of the Algorithm for PFR/PBR Design with Heat Effects
12.4 CSTR with Heat Effects
12.5 Multiple Steady-States (MSS)
12.6 Nonisothermal Multiple Chemical Reactions
13 Unsteady-State Nonisothermal Reactor Design
13.2 The Energy Balance
13.3 Batch and Semibatch Reactors with a Heat Exchanger
13.4 Nonisothermal Multiple Reactions
15 Diffusion and Reaction
15.2 Diffusion and Reactions in Spherical Catalyst Pellets
15.3 The Internal Effectiveness Factor
15.9 Multiphase Reactors in the Professional Reference Shelf
16 Residence Time Distributions of Chemical Reactors
16.1 General Considerations
16.2 Measurement of the RTD
16.3 Characteristics of the RTD
16.4 RTD in Ideal Reactors
16.5 PFR/CSTR Series RTD
16.6 Diagnostics and Trouble Shooting
17 Predicting Conversion Directly from the Residence Time Distribution
17.2 Zero Adjustable Parameter Models
17.4 Tanks-in-Series One Parameter Model, n
Other