Elements of Chemical Reaction Engineering, Global Edition, 6th edition

Published by Pearson (January 13, 2022) © 2022

  • H Scott Fogler
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  • Molecular simulations
  • Stochastic modeling
  • Practical safety lessons
  • Real-world chemical reaction engineering problems

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The Definitive Guide to Chemical Reaction Engineering Problem-Solving

For decades, H. Scott Fogler's Elements of Chemical Reaction Engineering has been the world's dominant chemical reaction engineering text. This edition and integrated website, delivers a more compelling active learning experience than ever before. Using sliders and interactive examples in Wolfram, Python, POLYMATH, and MATLAB, students can explore reactions and reactors by running realistic simulation experiments.

Writing for today's students, Fogler provides instant access to information, avoids extraneous details, and presents novel problems linking theory to practice. Instructors can flexibly define their courses, drawing on updated chapters, problems, and extensive Professional Reference Shelf web content at diverse levels of difficulty.

The book thoroughly prepares undergraduates to apply chemical reaction kinetics and physics to the design of chemical reactors. And four advanced chapters address graduate-level topics, including effectiveness factors. To support the field's growing emphasis on chemical reactor safety, each chapter now ends with a practical safety lesson.

  • 1. Mole Balances
  • 2. Conversion and Reactor Sizing
  • 3. Rate Laws
  • 4. Stoichiometry
  • 5. Isothermal Reactor Design: Conversion
  • 6. Isothermal Reactor Design: Moles and Molar Flow Rates
  • 7. Collection and Analysis of Rate Data
  • 8. Multiple Reactions
  • 9. Reaction Mechanisms, Pathways, Bioreactions, and Bioreactors
  • 10. Catalysis and Catalytic Reactors
  • 11. Non-isothermal Reactor Design: The Steady-State Energy Balance and Adiabatic PFR Applications
  • 12. Steady-State Non-isothermal Reactor Design: Flow Reactors with Heat Exchange
  • 13. Unsteady-State Non-isothermal Reactor Design
  • 14. Mass Transfer Limitations in Reacting Systems
  • 15. Diffusion and Reaction
  • 16. Residence Time Distributions of Chemical Reactors
  • 17. Predicting Conversion Directly from the Residence Time Distribution
  • 18. Models for Non-ideal Reactors
  • Appendix A: Numerical Techniques
  • Appendix B: Ideal Gas Constant and Conversion Factors
  • Appendix C: Thermodynamic Relationships Involving the Equilibrium Constant
  • Appendix D: Software Packages
  • Appendix E: Rate-Law Data
  • Appendix F: Nomenclature
  • Appendix G: Open-Ended Problems
  • Appendix H: Use of Computational Chemistry Software Packages
  • Appendix I: How to Use the CRE Web Resources

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