The fundamentals of catalysis and catalytic processes are fully covered before delving into the important industrial applications of catalysis and catalytic processes, with an emphasis on green and sustainable technologies. Several case studies illustrate new and sustainable ways of designing catalysts and catalytic processes.
The intended audience of the book includes researchers in academia and industry, as well as chemical engineers, process development chemists, and technologists working in chemical industries and industrial research laboratories.
- Discusses the fundamentals of catalytic processes, catalyst preparation and characterization, and reaction engineering- Outlines the homogeneous catalytic processes as they apply to specialty chemicals- Introduces industrial catalysis and catalytic processes for fine chemicals- Includes a number of case studies to demonstrate the various processes and methods for designing green catalysts
1. Catalysis & Catalytic Processes 2. Homogenous catalysis 3. Heterogeneous catalysis 4. Catalyst synthesis and characterization 5. Selection of reaction media 6. Catalyst deactivation and regeneration 7. Catalytic Reaction Engineering 8. Catalysis for fine and Specialty Chemicals 9. Fine chemical synthesis and future perspectives 10. Use of Catalysis for API manufacturing 11. Catalysis for perfumery chemicals 12. Use of ion exchange resins in fine and specialty chemicals 13. Catalysis for Renewable chemicals manufacture 14. Carbonylations & Hydroformylations 15. Carbamates 16. Challenges of Scale-up in Specialty Chemicals 17. Epilogue
Sunil S. Joshi is well experienced in the field of chemical engineering, catalysis and catalytic processes. His career as the Senior Principal Scientist for the Chemical Engineering & ProcessDevelopment Division at CSIR-National Chemical Laboratory, Dr. Joshi has years of experience in research and development and has translated his research into practice.
Ranade, Vivek V.
Dr Vivek V Ranade is a Deputy Director of CSIR - National Chemical Laboratory (www.ncl-india.org) and Chairman of Chemical Engineering and Process Development Division. He has contributed significantly to chemical engineering science and practice. His work has resulted in new insights and better designs of industrial flow processes. He has successfully developed solutions and has facilitated their implementation in a wide range of industry. He has also developed various devices (micro-reactors, filters, vortex diodes) and products. He is currently leading a large program on process intensification entitled Indus MAGIC (www.indusmagic.org) which is aimed at developing MAGIC (modular, agile, intensified and continuous) processes and plants. He has established first of its kind industry consortium on process intensification (Indus CPI) at NCL. He is actively working with a wide range of fine and specialty chemicals industries to transform the way we manufacture these chemicals.
Dr Ranade is a Professor at Academy of Scientific and Innovative Research (www.acsir.res.in) and an Adjunct Professor at ICT (formerly UDCT: http://www.ictmumbai.edu.in). He also worked at ETH, Zurich; TU Delft and University of Twente, The Netherlands as guest researcher. He has published more than 125 papers and five books. He is co-inventor of more than 20 patents (granted or filed). He is an Associate Editor of 'Industrial & Engineering Chemistry Research' and serves on editorial boards of 'Chemical Engineering Research & Design' and 'Indian Chemical Engineer' journals. He is a recipient of several awards including Shanti Swarup Bhatnagar award and DST Swarna Jayanti Fellowship. He is a fellow of Indian National Academy Sciences, Indian National Academy of Engineering and Indian Academy of Sciences. He is also an entrepreneur and has co-founded technology based start-up companies: Tridiagonal Solutions (www.tridiagonal.com); Vivira Process Technologies Pvt. Ltd. (www.vivira.in).
Dr Ranade previously authored Trickle Bed Reactor (9780444527387) and Computational Flow Modeling for Chemical Reactor Engineering (9780125769600) with Elsevier.