Elements of Chemical Reaction Engineering
Autor H. Scott Fogleren Limba Engleză Paperback – 30 apr 2004
The fourth edition of Elements of Chemical Reaction Engineering is a completely revised version of the worldwide best-selling book. It combines authoritative coverage of the principles of chemical reaction engineering with an unsurpassed focus on critical thinking and creative problem solving, employing open-ended questions and stressing the Socratic method. Clear and superbly organized, it integrates text, visuals, and computer simulations to help readers solve even the most challenging problems through reasoning, rather than by memorizing equations.
Thorough coverage of the fundamentals of chemical reaction engineering forms the backbone of this trusted text. To enhance the transfer of core skills to real-life settings, three styles of problems are included for each subject
- Straightforward problems that reinforce the material
- Problems that allow students to explore the issues and look for optimum solutions
- Open-ended problems that encourage students to practice creative problem-solving skills
About the CD-ROM The CD-ROM offers numerous enrichment opportunities for both students and instructors, including the following Learning Resources:
- Summary Notes: Chapter-specific interactive material to address the different learning styles in the Felder/Solomon learning-style index
- Learning Resources: Web modules, reactor lab modules, interactive computer modules, solved problems, and problem-solving heuristics
- Living Example Problems: More than fifty-five interactive simulations in POLYMATH software, which allow students to explore the examples and ask “what-if” questions
- Professional Reference Shelf: Advanced content, ranging from collision and transition state theory to aerosol reactors, DFT, runaway reactions, and pharmacokinetics
- Additional Study Materials: Extra homework problems, course syllabi, and Web links to related material
- Latest Software to Solve “Digital Age” Problems: FEMLAB to solve PDEs for the axial and radial concentration and temperature profiles, and Polymath to do regression, solve nonlinear equations, and solve single and coupled ODEs
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Specificații
ISBN-13: 9780131278394
ISBN-10: 0131278398
Pagini: 1120
Dimensiuni: 180 x 233 x 61 mm
Greutate: 1.79 kg
Ediția:Nouă
Editura: Prentice-Hall
Locul publicării:Upper Saddle River, United States
ISBN-10: 0131278398
Pagini: 1120
Dimensiuni: 180 x 233 x 61 mm
Greutate: 1.79 kg
Ediția:Nouă
Editura: Prentice-Hall
Locul publicării:Upper Saddle River, United States
Cuprins
1. Mole Balances.
The Rate of Reaction
The General Mole Balance Equation
Batch Reactors
Continuous-Flow Reactors
Industrial Reactors
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
2. Conversion and Reactor Sizing.
Definition of Conversion
Batch Reactor Design Equations
Design Equations for Flow Reactors
Applications of the Design Equations for Continuous-Flow Reactors
Reactors in Series
Some Further Definitions
Summary
CD-ROM Materials
Questions and Problems
Supplementary Reading
3. Rate Laws and Stoichiometry.
Part 1. Rate Laws
Basic Definitions
The Reaction Order and the Rate Law
The Reaction Rate Constant
Present Status of Our Approach to Reactor Sizing and Design
Part 2. Stoichiometry
Batch Systems
Flow Systems
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
4. Isothermal Reactor Design.
Part 1. Mole Balances in Terms of Conversion
Design Structure for Isothermal Reactors
Scale-Up of Liquid-Phase Batch Reactor Data to the Design of a CSTR
Design of Continuous Stirred Tank Reactors (CSTRs)
Tubular Reactors
Pressure Drop in Reactors
Synthesizing the Design of a Chemical Plant
Part 2. Mole Balances Written in Terms of Concentration and Molar Flow Rate
Mole Balances on CSTRs, PFRs, PBRs, and Batch Reactors
Microreactors
Membrane Reactors
Unsteady-State Operation of Stirred Reactors
The Practical Side
Summary
ODE Solver Algorithm
CD-ROM Material
Questions and Problems
Some Thoughts on Critiquing What You read
Journal Critique Problems
Supplementary Reading
5. Collection and Analysis of Rate Data.
The Algorithm for Data Analysis
Batch Reactor Data
Method of Initial Rates
Method of Half-Lives
Differential Reactors
Experimental Planning
Evaluation of Laboratory Reactors
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
6. Multiple Reactions.
Definitions
Parallel Reactions
Maximizing the Desired Product in Series Reactions
Algorithm for Solution of Complex Reactions
Multiple Reactions in a PFR/PBR
Multiple Reactions in a CSTR
Membrane Reactors to Improve Selectivity in Multiple Reactions
Complex Reactions of Ammonia Oxidation
Sorting It All Out
The Fun Part
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
7. Reaction Mechanisms, Pathways, Bioreactions, and Bioreactors.
Active Intermediates and Nonelementary Rate Laws
Enzymatic Reaction Fundamentals
Inhibition of Enzyme Reactions
Bioreactors
Physiologically Based Pharmacokinetic (PBPK) Models
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
8. Steady-State Nonisothermal Reactor Design.
Rationale
The Energy Balance
Adiabatic Operation
Steady-State Tubular Reactor with Heat Exchange
Equilibrium Conversion
CSTR with Heat Effects
Multiple Steady States
Nonisothermal Multiple Chemical Reactions
Radial and Axial Variations in a Tubular Reactor
The Practical Side
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
9. Unsteady-State Nonisothermal Reactor Design.
The Unsteady-State Energy Balance
Energy Balance on Batch Reactors
Semibatch Reactors with a Heat Exchanger
Unsteady Operation of a CSTR
Nonisothermal Multiple Reactions
Unsteady Operation of Plug-Flow Reactors
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
10. Catalysis and Catalytic Reactors.
Catalysts
Steps in a Catalytic Reaction
Synthesizing a Rate Law, Mechanism, and Rate-Limiting Step
Heterogeneous Data Analysis for Reactor Design
Reaction Engineering in Microelectronic Fabrication
Model Discrimination
Catalyst Deactivation
Summary
ODE Solver Algorithm
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
11. External Diffusion Effects on Heterogeneous Reactions.
Diffusion Fundamentals
Binary Diffusion
External Resistance to Mass Transfer
What If . . . ? (Parameter Sensitivity)
The Shrinking Core Model
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
12. Diffusion and Reaction.
Diffusion and Reaction in Spherical Catalyst Pellets
Internal Effectiveness Factor
Falsified Kinetics
Overall Effectiveness Factor
Estimation of Diffusion- and Reaction-Limited Regimes
Mass Transfer and Reaction in a Packed Bed
Determination of Limiting Situations from Reaction Data
Multiphase Reactors
Fluidized Bed Reactors
Chemical Vapor Deposition (CVD)
Summary
CD-ROM Material
Questions and Problems
Journal Article Problems
Journal Critique Problems
Supplementary Reading
13. Distributions of Residence Times for Chemical Reactors.
General Characteristics
Part 1. Characteristics and Diagnostics
Measurement of the RTD
Characteristics of the RTD
RTD in Ideal Reactors
Diagnostics and Troubleshooting
Part 2. Predicting Conversion and Exit Concentration
Reactor Modeling Using the RTD
Zero-Parameter Models
Using Software Packages
RTD and Multiple Reactions
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
14. Models for Nonideal Reactors.
Some Guidelines
Tanks-in-Series (T-I-S) Model
Dispersion Model
Flow, Reaction, and Dispersion
Tanks-in-Series Model Versus Dispersion Model
Numerical Solutions to Flows with Dispersion and Reaction
Two-Parameter Models-Modeling Real Reactors with Combinations of Ideal Reactors
Use of Software Packages to Determine the Model Parameters
Other Models of Nonideal Reactors Using CSTRs and PFRs
Applications to Pharmacokinetic Modeling
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
Appendix A: Numerical Techniques.
Appendix B: Ideal Gas Constant and Conversion Factors.
Appendix C: Thermodynamic Relationships Involving the Equilibrium Constant.
Appendix D: Measurement of Slopes on Semilog Paper.
Appendix E: Software Packages.
Appendix F: Nomenclature.
Appendix G: Rate Law Data.
Appendix H: Open-Ended Problems.
Appendix I: How to Use the CD-ROM.
Appendix J: Use of Computational Chemistry Software Packages.
Index.
About the CD-ROM.
The Rate of Reaction
The General Mole Balance Equation
Batch Reactors
Continuous-Flow Reactors
Industrial Reactors
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
2. Conversion and Reactor Sizing.
Definition of Conversion
Batch Reactor Design Equations
Design Equations for Flow Reactors
Applications of the Design Equations for Continuous-Flow Reactors
Reactors in Series
Some Further Definitions
Summary
CD-ROM Materials
Questions and Problems
Supplementary Reading
3. Rate Laws and Stoichiometry.
Part 1. Rate Laws
Basic Definitions
The Reaction Order and the Rate Law
The Reaction Rate Constant
Present Status of Our Approach to Reactor Sizing and Design
Part 2. Stoichiometry
Batch Systems
Flow Systems
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
4. Isothermal Reactor Design.
Part 1. Mole Balances in Terms of Conversion
Design Structure for Isothermal Reactors
Scale-Up of Liquid-Phase Batch Reactor Data to the Design of a CSTR
Design of Continuous Stirred Tank Reactors (CSTRs)
Tubular Reactors
Pressure Drop in Reactors
Synthesizing the Design of a Chemical Plant
Part 2. Mole Balances Written in Terms of Concentration and Molar Flow Rate
Mole Balances on CSTRs, PFRs, PBRs, and Batch Reactors
Microreactors
Membrane Reactors
Unsteady-State Operation of Stirred Reactors
The Practical Side
Summary
ODE Solver Algorithm
CD-ROM Material
Questions and Problems
Some Thoughts on Critiquing What You read
Journal Critique Problems
Supplementary Reading
5. Collection and Analysis of Rate Data.
The Algorithm for Data Analysis
Batch Reactor Data
Method of Initial Rates
Method of Half-Lives
Differential Reactors
Experimental Planning
Evaluation of Laboratory Reactors
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
6. Multiple Reactions.
Definitions
Parallel Reactions
Maximizing the Desired Product in Series Reactions
Algorithm for Solution of Complex Reactions
Multiple Reactions in a PFR/PBR
Multiple Reactions in a CSTR
Membrane Reactors to Improve Selectivity in Multiple Reactions
Complex Reactions of Ammonia Oxidation
Sorting It All Out
The Fun Part
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
7. Reaction Mechanisms, Pathways, Bioreactions, and Bioreactors.
Active Intermediates and Nonelementary Rate Laws
Enzymatic Reaction Fundamentals
Inhibition of Enzyme Reactions
Bioreactors
Physiologically Based Pharmacokinetic (PBPK) Models
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
8. Steady-State Nonisothermal Reactor Design.
Rationale
The Energy Balance
Adiabatic Operation
Steady-State Tubular Reactor with Heat Exchange
Equilibrium Conversion
CSTR with Heat Effects
Multiple Steady States
Nonisothermal Multiple Chemical Reactions
Radial and Axial Variations in a Tubular Reactor
The Practical Side
Summary
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
9. Unsteady-State Nonisothermal Reactor Design.
The Unsteady-State Energy Balance
Energy Balance on Batch Reactors
Semibatch Reactors with a Heat Exchanger
Unsteady Operation of a CSTR
Nonisothermal Multiple Reactions
Unsteady Operation of Plug-Flow Reactors
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
10. Catalysis and Catalytic Reactors.
Catalysts
Steps in a Catalytic Reaction
Synthesizing a Rate Law, Mechanism, and Rate-Limiting Step
Heterogeneous Data Analysis for Reactor Design
Reaction Engineering in Microelectronic Fabrication
Model Discrimination
Catalyst Deactivation
Summary
ODE Solver Algorithm
CD-ROM Material
Questions and Problems
Journal Critique Problems
Supplementary Reading
11. External Diffusion Effects on Heterogeneous Reactions.
Diffusion Fundamentals
Binary Diffusion
External Resistance to Mass Transfer
What If . . . ? (Parameter Sensitivity)
The Shrinking Core Model
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
12. Diffusion and Reaction.
Diffusion and Reaction in Spherical Catalyst Pellets
Internal Effectiveness Factor
Falsified Kinetics
Overall Effectiveness Factor
Estimation of Diffusion- and Reaction-Limited Regimes
Mass Transfer and Reaction in a Packed Bed
Determination of Limiting Situations from Reaction Data
Multiphase Reactors
Fluidized Bed Reactors
Chemical Vapor Deposition (CVD)
Summary
CD-ROM Material
Questions and Problems
Journal Article Problems
Journal Critique Problems
Supplementary Reading
13. Distributions of Residence Times for Chemical Reactors.
General Characteristics
Part 1. Characteristics and Diagnostics
Measurement of the RTD
Characteristics of the RTD
RTD in Ideal Reactors
Diagnostics and Troubleshooting
Part 2. Predicting Conversion and Exit Concentration
Reactor Modeling Using the RTD
Zero-Parameter Models
Using Software Packages
RTD and Multiple Reactions
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
14. Models for Nonideal Reactors.
Some Guidelines
Tanks-in-Series (T-I-S) Model
Dispersion Model
Flow, Reaction, and Dispersion
Tanks-in-Series Model Versus Dispersion Model
Numerical Solutions to Flows with Dispersion and Reaction
Two-Parameter Models-Modeling Real Reactors with Combinations of Ideal Reactors
Use of Software Packages to Determine the Model Parameters
Other Models of Nonideal Reactors Using CSTRs and PFRs
Applications to Pharmacokinetic Modeling
Summary
CD-ROM Material
Questions and Problems
Supplementary Reading
Appendix A: Numerical Techniques.
Appendix B: Ideal Gas Constant and Conversion Factors.
Appendix C: Thermodynamic Relationships Involving the Equilibrium Constant.
Appendix D: Measurement of Slopes on Semilog Paper.
Appendix E: Software Packages.
Appendix F: Nomenclature.
Appendix G: Rate Law Data.
Appendix H: Open-Ended Problems.
Appendix I: How to Use the CD-ROM.
Appendix J: Use of Computational Chemistry Software Packages.
Index.
About the CD-ROM.
Notă biografică
H. Scott Fogler is the Arthur F. Thurnau Professor, Vennema Professor of Chemical Engineering at the University of Michigan. His research interests include flow and reaction in porous media, fused chemical relations, gellation kinetics, and chemical reaction engineering problems in the petroleum industry. He has graduated 37 Ph.D. students and has more than 200 refereed publications in these areas. Fogler is the AIChE 2008 President-elect. He has chaired ASEE’s Chemical Engineering Division, served as director of the American Institute of Chemical Engineers, earned the Warren K. Lewis Award from AIChE for contributions to chemical engineering education, and received the Chemical Manufacturers Association’s National Catalyst Award. He is the co-author of the bestselling textbook Strategies for Creative Problem Solving, Second Edition (Prentice Hall, 2008).
Caracteristici
- The best selling chemical reaction engineering book just got better!
- The fundamentals of chemical reaction engineering -- presented in a clear and conciser manner
- The reader learns how to solve problems through reasoning rather than getting lost in trying to remember which formula applies to what situation
- Reader develops critical and creative thinking skills they can apply to many situations, becoming more productive and self-reliant
Caracteristici noi
The greatest expansion of material is in the area of the bioreaction engineering. New material on enzyme kinetics, cell growth, and tissue engineering has been added. There is a bioreaction engineering homework or example problem in virtually every chapter. In addition there are side notes describing blood coagulation, DNA lab-on-a-chip and methanol poisoning. Bio-related Web Modules include physiological-based pharmacokinetic (PBPK) models of alcohol metabolism and the Russell's viper, the cobra, and the Fer-de-Lance venomous snake bites.
Other new material includes density functional theory, microreactors, side-fed-membrane reactors, advanced reactor safety screening tool (ARSST), runaway reactors, and tubular reactors with axial and radial gradients (FEMLAB). Expanded material includes collision theory, transition state theory, molecular dynamics, and molecular chemical reaction engineering (DFT) to study rate constants.
The Fourth Edition contains more industrial chemistry with real reactors and real reactions and extends the wide range of applications to which chemical reaction engineering principles can be applied (i.e., cobra bites, medications, ecological engineering).
Other new material includes density functional theory, microreactors, side-fed-membrane reactors, advanced reactor safety screening tool (ARSST), runaway reactors, and tubular reactors with axial and radial gradients (FEMLAB). Expanded material includes collision theory, transition state theory, molecular dynamics, and molecular chemical reaction engineering (DFT) to study rate constants.
The Fourth Edition contains more industrial chemistry with real reactors and real reactions and extends the wide range of applications to which chemical reaction engineering principles can be applied (i.e., cobra bites, medications, ecological engineering).