Transport Processes | |||
| Session 140 - Mathematical Modeling of Transport Processes | |||
| This session focuses on mathematical methods, both analytical and numerical, applied to the simulation and prediction of transport processes. The focus is more on the methods used to obtain solutions to problems in transport phenomena rather than on the phenomena themselves. | |||
| Chair: | Norman W. Loney | ||
| CoChair: | Nivedita R. Gupta | ||
| 140a | Off-Lattice Monte Carlo Simulation for Heat Transfer through Carbon Nanotube Composites Dimitrios V. Papavassiliou, Hai M. Duong, Lloyd L. Lee, Kieran Mullen | ||
| 140b | Early Time Analysis of Transport Processes Jerry H. Meldon | ||
| 140c | Mathematical Modeling of Percutaneous Absorption of Volatile Organic Liquids Siladitya Ray Chaudhuri, Rachna M. Gajjar, Gerald B. Kasting, William B. Krantz | ||
| 140d | Analytical Modeling of the Forced Gravity Drainage Gagd Process Madhav M. Kulkarni | ||
| 140e | Mathematical Modeling of New Phase Growth Due to Solute Diffusion Jalal Abedi, Seyed Jalaladdin Hashemi | ||
| 140f | Modeling of Non-Newtonian Reactive Systems in Tubular Reactor Rajeev K. Garg, V. K. Srivastava | ||
| 140g | Analytical and Experimental Studies of Mass Transfer and Separation of Species in a Wavy-Walled Tube by Imposed Fluid Oscillation Gatwech Thich, Aaron M. Thomas, Ranga Narayanan | ||
| 140h | Simulations of Miscible Viscous Fingering Phenomena Using Adaptive Discontinuous Galerkin Methods Shuyu Sun | ||
| 140i | Modelling Wave Enhanced Mass Transfer in Falling Films Using Effective Diffusion Coefficients André Schagen, Michael Modigell | ||
| 140j | Prediction of Tobacco Temperature and Oxygen Profiles in Warehouse Aging Process Yizhou Zheng | ||
| 140k | An Analogy between Chemical Reaction and Heat Transfer Stuart W. Churchill | ||
See more of Engineering Sciences and Fundamentals