Sanjay B. Pawar
B.E., M. Chem. Engg. (Currently Ph. D. Student)
Email: ce06sb.pawar@ictmumbai.edu.in
| Education Details | ||
Course |
Institute/University |
Year of Passing |
| B. E. Chemical Engineering |
K.E.S.N.N.P. Engg. College,Pen (Mumbai University) |
2003 |
| M. Chem. Engineering | University Institute of Chemical Technology, UICT, Mumbai | 2006 |
| Ph. D. Tech. Chemical Engineering |
University Institute of Chemical Technology, UICT, Mumbai | - |
Abstract of Ph. D. Thesis:
STUDIES IN ADVANCED DRYING SYSTEMS
Over the past decade, research in the field of CFD modeling of drying has primarily dealt with the spray dryers. To broaden this way, there is necessity to analyze the drying performance of advanced dryers such as agitated thin film dryer and agitated fluid bed dryer. Computational fluid dynamics (CFD) is a solution for various dryers for scale up and design issue. The flow pattern in rotating geometry is always complex. In case of agitated thin film dryer (ATFD), it is difficult to analyze the flow behavior created due to scraping blade. The ATFD technology can compete with the spray drying in terms of heat transfer area and rate, space availability, contamination and dust collection of particle. Conduction drying always gives higher heat transfer rate than that of convection drying. Present work is based on the use of conduction drying rather than the less efficient convection drying.