Process Intensification: Faster, Better, Cheaper presents basic concepts and applications of Process Intensification (PI) and links their common effects across processes. It defines two fundamental parameters, PI factor, and Cost Impact (CI) factor, and uses these to analyze various applications where PI has been carried out.
Process Intensification: Faster, Better, Cheaper presents basic concepts and applications of Process Intensification (PI) and links their common effects across processes. It defines two fundamental parameters, PI factor, and Cost Impact (CI) factor, and uses these to analyze various applications where PI has been carried out.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Nagarajan is currently a Professor and the Head of the Department of Chemical Engineering at IIT Madras, having stepped down in September 2018 after two terms as the Dean of International & Alumni Relations. He obtained his B.Tech. in Chemical Engineering in 1981 from IIT Madras, and a Ph.D. in the same field from Yale University (New Haven, CT, USA) in 1986. From 1986 - 1988, he served as Research Faculty in the Department of Mechanical & Aerospace Engineering at West Virginia University, Morgantown, WV; during this tenure, he served as coordinator for research projects funded by the U.S. Department of Energy and the U.S. Navy. From 1988 - 2003, Dr. Nagarajan was a Senior Technical Staff Member with IBM Storage Systems' Development Laboratory in San Jose, CA, where he oversaw elimination of ozone-depleting chemicals from IBM's manufacturing operations and directed many ground-breaking efforts in the areas of chemical integration & micro-contamination control for hard disk drives.
Inhaltsangabe
1. What is Process Intensification? 2. PIF/CIF Case Studies. 3. Common Process Intensification Parameters. 4. Process Intensification Driven by External Fields. 5. Acoustic Intensification of Process-Mechanisms Involved. 6. Process Intensifications Fields: Case Studies. 7. Acoustic Fields Coupled to Liquids: Basics and Some Applications. 8. Intensification of Transport Phenomena and Chemical Reactions. 9. Intensification of Heat Transfer: Case Studies. 10. Mass Transfer Rate Enhancement: Case Study. 11. Pollution Abatement and Microcontamination Control: Case Study. 12. Formulation of Nano-Emulsions: Case Study. 13. Enhanced Oil Recovery: Case Study. 14. In Conclusion...
1. What is Process Intensification? 2. PIF/CIF Case Studies. 3. Common Process Intensification Parameters. 4. Process Intensification Driven by External Fields. 5. Acoustic Intensification of Process-Mechanisms Involved. 6. Process Intensifications Fields: Case Studies. 7. Acoustic Fields Coupled to Liquids: Basics and Some Applications. 8. Intensification of Transport Phenomena and Chemical Reactions. 9. Intensification of Heat Transfer: Case Studies. 10. Mass Transfer Rate Enhancement: Case Study. 11. Pollution Abatement and Microcontamination Control: Case Study. 12. Formulation of Nano-Emulsions: Case Study. 13. Enhanced Oil Recovery: Case Study. 14. In Conclusion...
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