Essentials of Chemical Reaction Engineering - Fogler
Essentials of Chemical Reaction Engineering by Fogler: A Comprehensive Guide to Chemical Reaction Engineering Principles and Applications
Fogler's "Essentials of Chemical Reaction Engineering" is a comprehensive and authoritative textbook that provides a deep understanding of the fundamental principles and applications of chemical reaction engineering. Written by renowned chemical engineer H. Scott Fogler, this book is a must-have resource for students, researchers, and professionals in the field of chemical engineering and related disciplines.
Key Features:
Comprehensive Coverage: The book covers a wide range of topics, including chemical kinetics, reactor design, mass transfer, and heterogeneous catalysis, providing a thorough foundation in chemical reaction engineering.
In-Depth Explanations: Fogler presents complex concepts in a clear and concise manner, with detailed explanations and derivations that help readers grasp the underlying principles.
Real-World Applications: The book is filled with real-world examples and case studies that illustrate the practical applications of chemical reaction engineering principles in various industries.
Problem-Solving Approach: Each chapter includes numerous practice problems and exercises that reinforce the concepts and help readers develop problem-solving skills.
Extensive References: The book provides extensive references to the latest research and literature, allowing readers to explore topics in greater depth.
Chapter Summaries:
Chapter 1: Introduction to Chemical Reaction Engineering
- Provides an overview of the field of chemical reaction engineering and its importance in various industries.
- Introduces key concepts such as reaction rate, conversion, and selectivity.
Chapter 2: Chemical Kinetics
- Covers the fundamental principles of chemical kinetics, including reaction rate laws, rate constants, and temperature dependence.
- Discusses different types of reactions, such as elementary reactions, consecutive reactions, and parallel reactions.
Chapter 3: Reactor Design
- Introduces the concept of reactor design and the different types of reactors used in chemical processes.
- Analyzes the performance of various reactor types, including batch reactors, plug flow reactors, and continuous stirred-tank reactors.
Chapter 4: Mass Transfer
- Explores the principles of mass transfer, including diffusion, convection, and mass transfer coefficients.
- Discusses the role of mass transfer in chemical reactions and reactor design.
Chapter 5: Heterogeneous Catalysis
- Provides an overview of heterogeneous catalysis and the different types of catalysts used in chemical processes.
- Examines the mechanisms of heterogeneous catalytic reactions and the factors affecting their performance.
Chapter 6: Non-Ideal Flow and Residence Time Distribution
- Discusses non-ideal flow patterns and their impact on reactor performance.
- Introduces the concept of residence time distribution and its application in reactor design.
Chapter 7: Scale-Up and Optimization
- Covers the principles of scale-up and optimization of chemical reactors.
- Discusses the challenges and considerations involved in scaling up laboratory-scale reactions to industrial-scale processes.
Why You Should Buy This Book:
"Essentials of Chemical Reaction Engineering" by Fogler is an essential resource for anyone seeking a comprehensive understanding of chemical reaction engineering principles and their applications. With its clear explanations, real-world examples, and extensive coverage of topics, this book is a valuable asset for students, researchers, and professionals in the field.
Whether you are a student looking to build a strong foundation in chemical reaction engineering or a professional seeking to expand your knowledge and skills, this book is a must-have addition to your library. Invest in your education and career by purchasing "Essentials of Chemical Reaction Engineering" today and unlock the secrets of chemical reaction engineering success!