Description
T and F CRC Green Chemical Engineering: An Introduction To Catalysis, Kinetics, And Chemical Processes by Sundaramoorthy and S and Suresh and S
While chemical products are useful in their own right?they address the demands and needs of the masses?they also drain our natural resources and generate unwanted pollution. Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes encourages minimized use of non-renewable natural resources and fosters maximized pollution prevention. This text stresses the importance of developing processes that are environmentally friendly and incorporate the role of green chemistry and reaction engineering in designing these processes. Focused on practical application rather than theory, the book integrates chemical reaction engineering and green chemical engineering, and is divided into two sections. The first half of the book covers the basic principles of chemical reaction engineering and reactor design, while the second half of the book explores topics on green reactors, green catalysis, and green processes. The authors mix in elaborate illustrations along with important developments, practical applications, and recent case studies. They also include numerous exercises, examples, and problems covering the various concepts of reaction engineering addressed in this book, and provide MATLAB® software used for developing computer codes and solving a number of reaction engineering problems. Comprehensive and thorough in its coverage, Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes explains the basic concepts of green engineering and reactor design fundamentals, and provides key knowledge for students at technical universities and professionals already working in the industry.
Key Features:-
- Covers the basic principles of chemical kinetics and catalysis
- Gives a brief introduction to classification and the various types of chemical reactors
- Discusses in detail the differential and integral methods of analysis of rate equations for differen
- Explains methods for estimation of kinetic parameters from batch reactor data
- Details topics on homogeneous reactors
- Reviews various models for non-catalytic gas–solid and gas–liquid reactions