Introduction to Chemical Reactor Analysis, Second Edition introduces the basic concepts of chemical reactor analysis and design, an important foundation for understanding chemical reactors, which play a central role in most industrial chemical plants. The scope of the second edition has been significantly enhanced and the content reorganized for improved pedagogical value, containing sufficient material to be used as a text for an undergraduate level two-term course. This edition also contains five new chapters on catalytic reaction engineering. Written so that newcomers to the field can easily progress through the topics, this text provides sufficient knowledge for readers to perform most of the common reaction engineering calculations required for a typical practicing engineer. The authors introduce kinetics, reactor types, and commonly used terms in the first chapter. Subsequent chapters cover a review of chemical engineering thermodynamics, mole balances in ideal reactors for three common reactor types, energy balances in ideal reactors, and chemical reaction kinetics. The text also presents an introduction to nonideal reactors, and explores kinetics and reactors in catalytic systems. The book assumes that readers have some knowledge of thermodynamics, numerical methods, heat transfer, and fluid flow. The authors include an appendix for numerical methods, which are essential to solving most realistic problems in chemical reaction engineering. They also provide numerous worked examples and additional problems in each chapter. Given the significant number of chemical engineers involved in chemical process plant operation at some point in their careers, this book offers essential training for interpreting chemical reactor performance and improving reactor operation. What’s New in This Edition: Five new chapters on catalytic reaction engineering, including various catalytic reactions and kinetics, transport processes, and experimental methods Expanded coverage of adsorption Additional worked problems Reorganized material
This book provides an introduction to the basic concepts of chemical reactor analysis and design. It is intended for both the senior level undergraduate student in chemical engineering and the working professional who may require an understanding of the basics of this subject.
In a clear and concise manner, this book explains how to apply concepts in chemical reaction engineering and transport phenomena to the design of catalytic combustion systems. Although there are many textbooks on the subject of chemical reaction engineering, catalytic combustion is mentioned either only briefly or not at all. The authors have chosen three examples where catalytic combustion is utilized as a primary combustion process and natural gas is used as a fuel - stationary gas turbines, process fluid heaters, and radiant heaters; these cover much of the area where research is currently most active. In each of these there are clear environmental benefits to be gained illustrating catalytic combustion as a "cleaner primary combustion process" . The dominant heat transfer processes in each of the applications are different, as are the support systems, flow geometrics and operating conditions.
This book provides a clear and concise introduction to heat transfer for senior level undergraduate students in engineering. The main concepts are developed and summarized for practicing engineers with an extended introduction to the application numerical methods in heat transfer. The reader will be able to master the following aspects of heat transfer: - Solve complex 1D conduction problems for both steady state and transient cases. - Understand the basic methodology for solving 2D and 3D conduction problems. - Have a basic understanding of the theory of convection. - Apply the correct correlation for solving convection problems for forced convection and natural convection for all basic geometries. - Analyze and size heat exchangers. - Perform basic radiation network analysis for exchange among surfaces.
Now in its fourth edition, this core text and standard reference in toxicology has once again been updated to incorporate the latest testing procedures and address new challenges faced by toxicologists. The author brings together more than 70 distinguished investigators to detail current testing procedures, offer guidelines on data interpretation and highlight major areas of controversy. The book deals with the methods of toxicology, as well as principles and agents. New chapters on exposure assessment and epidemiology for toxicologists have been added. The reader will find an in-depth look at the principles underlying toxicology, such as absorption, distribution, metabolism and excretion, as well as topics dealing with pharmacokinetics. Principles and Methods of Toxicology, Fourth Edition allows the working toxicologist, whether a senior professional or graduate student, to understand and use basic experiments in toxicology.
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