This books format follows an applications-oriented text and serves as a training tool for individuals in education and industry involved directly, or indirectly, with chemical reactors. It addresses both technical and calculational problems in this field.

Preface xi Overview xiii Part I. Introduction 1. History of Chemical Reactions 3 2. The Field of Chemistry 11 3. Process Variables 19 4. Kinetic Principles 45 5. Stoichiometry and Conversion Variables 73 Part II. Traditional Reactor Analysis 6. Reaction and Reactor Classification 111 7. The Conservation Laws 127 8. Batch Reactors 147 9. Continuous Stirred Tank Reactors (CSTRs)181 10. Tubular Flow Reactors 209 11. Reactor Comparisons 243 Part III. Reactor Applications 12. Thermal Effects 273 13. Interpretation of Kinetic Data 14. Non-Ideal Reactors 357 15. Reactor Design Considerations 383 Part IV. Other Reactor Topics 16. Catalysts 413 17. Catalytic Reactions 429 18. Fluidized and Fixed Bed Reactors 445 19. Biochemical Reactors 475 20. Open-Ended Problems 505 21. Abet-Related Topic 519 Appendix. SI Units 

Provides the tools needed to solve key challenges in chemical reactor design and analysis Chemical Reactor Analysis and Applications for the Practicing Engineer serves as a training tool that enables readers to effectively design and analyze chemical reactors. With its focus on applications, the text demonstrates how to design and operate a reactor that works at maximum efficiency and minimum cost, producing the highest yield of product. It also addresses operation, maintenance, and inspection (OM&I) methods and procedures to purchase a reactor. Moreover, this book includes a review of Accreditation Board for Engineering and Technology (ABET) topics as they apply to chemical reactors, making it an ideal preparation tool for readers who plan to take the Professional Engineering (PE) exams. Chemical Reactor Analysis and Applications for the Practicing Engineer is divided into four parts: Part I, Introduction, explores the history of chemical reactors, process variables, basic operations, chemical kinetic principles, and stoichometrical conversion variables Part II, Traditional Reactor Analysis, addresses and compares batch, continuous stirred tank, and tubular flow reactors Part III, Reactor Applications, guides readers through thermal effects, interpretation of kinetic data, non-ideal reactors, and reactor design Part IV, Other Reactor Topics, examines catalysis, catalytic reactions, fluidized and fixed bed reactors, biochemical reactors, and ABET-related topics This text is supplemented with nearly 300 illustrative examples, ranging in difficulty from solving simple equations to detailed design analysis and open-ended problems. Plus, the accompanying website features more than 200 additional problems and fifteen hours of practice exams. With its many practical examples and emphasis on applications, Chemical Reactor Analysis and Applications for the Practicing Engineer is recommended for engineers and students, particularly those who are preparing for the PE exams.