Advanced Transport Phenomena
Analysis, Modeling, and Computations

An integrated, modern approach to transport phenomena for graduate students, featuring traditional and contemporary examples to demonstrate the diverse practical applications of the theory. Written in an easy to follow style, the basic principles of transport phenomena, and model building are recapped in Chapters 1 and 2 before progressing logically through more advanced topics including physicochemical principles behind transport models. Treatments of numerical, analytical, and computational solutions are presented side by side, often with sample code in MATLAB, to aid students' understanding and develop their confidence in using computational skills to solve real-world problems. Learning objectives and mathematical prerequisites at the beginning of chapters orient students to what is required in the chapter, and summaries and over 400 end-of-chapter problems help them retain the key points and check their understanding. Online supplementary material including solutions to problems for instructors, supplementary reading material, sample computer codes, and case studies complete the package.

1. Introduction; 2. Examples of transport and system models; 3. Flow kinematics; 4. Forces and their representation; 5. Equations of motion and Navier-Stokes equation; 6. Illustration flow problems; 7. Energy balance equation; 8. Illustrative heat transport problems; 9. Equations of mass transfer; 10. Illustrative mass transfer problems; 11. Analysis and solution of transient transport processes; 12. Convective heat and mass transfer; 13. Coupled transport problems; 14. Scaling and perturbation analysis; 15. More flow analysis; 16. Bifurcation and stability analysis; 17. Turbulent flow analysis; 18. More convective heat transfer; 19. Radiation heat transfer; 20. More convective mass transfer; 21. Mass transfer: multicomponent systems; 22. Mass transport in charged systems.

P. A. Ramachandran is a Professor in the Department of Energy, Environment and Chemical Engineering at Washington University, St Louis. He has extensive teaching experience, mainly in transport phenomena, mathematical methods and chemical reaction engineering, and he has also held many visiting appointments at various international institutions. He has written or co-written two previous books, as well as over 200 journal articles in which he has pioneered many new concepts and computational tools for modelling of chemical reactors. He is the recipient of the Moulton Medal from the Institution of Chemical Engineers, UK, the NASA certificate of recognition, USA, and the NEERI award from the Institution of Chemical Engineers, India.