Solids Flow, Handling and Processing
Session 82 - Dynamics and Modeling of Particulate Systems II
The session will focus on the advancement of chemical engineers ability to understand, predict, design, and thus optimize particulate systems. Advances in experimental methods, numerical simulations and granular theories have the potential to improve nucleation and aggregation/agglomeration/coalescence dynamics in particulate systems (including solid/liquid and solid/gas) and thus control size and topography (e.g., fractal dimension) of products. Increasing computational power and new numerical/analytical techniques from Applied Mechanics have allowed for increasingly complex particulate systems to be modeled and have set the stage for future work in such diverse areas as mixing/segregation, granulation, fluidization, and pneumatic conveying, to name but a few.
Chair: Joerg Theuerkauf
CoChair: James F. Gilchrist
  82a Newton's Cradle Undone: Experiments and Collision Models for the Normal Collision of Three Solid Spheres
Carly M. Donahue, Christine M. Hrenya, Kenshiro Nakagawa, Alexandra Zelinskaya
  82b Stokesian Dynamics for Rigid Body Motion of Particle Aggregates
Yogesh M. Harshe, Marco Lattuada, Massimo Morbidelli
  82c Silica Precipitation during Analcime Dissolution
Elizabeth A. Gorrepati, H. Scott Fogler
  82d Comparison of the Use of Different Solubility Models for the Cooling Crystallization of Acetaminophen
David Widenski, Ali Abbas, Jose A. Romagnoli
  82e Development and Validation of History-Dependent Inter-Particle Bonding Terms In Compacted Powder Beds
Athanas A. Koynov, Alberto Cuitino
  82f Discrete Element Method Simulation of a Dense Phase Conveying System
Bing Du, Ting(Tim) Han, Nestor A. Vasquez, Joerg Theuerkauf
  82g Discrete Element Method Simulation of a Dilute Conveying System
Bing Du, Ting(Tim) Han, Nestor A. Vasquez, Joerg Theuerkauf

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