APS -70th Annual Meeting of the APS Division of Fluid Dynamics- Event - Towards a universal description of cohesive-particle flows

摘要

A universal framework for describing cohesive granular flows seems unattainable based on prior works, making a fundamental continuum theory to predict such flows appear unachievable. For the first time, universal behavior of cohesive-grain flows is demonstrated by linking the macroscopic (many-grain) behavior to grain-grain interactions via two dimensionless groups: a generalized Bond number Bo$_{G}$ – ratio of maximum cohesive force to the force driving flow – and a new Agglomerate number Ag – ratio of critical cohesive energy to the granular energy. Cohesive-grain flow is investigated in several systems, and universal behavior is determined via collapse of a cohesion-dependent output variable from each system with the appropriate dimensionless group. Universal behavior is observed using Bo$_{G}$ for dense (enduring-contact-dominated) flows and Ag for dilute (collision-dominated) flows, as Bo$_{G}$ accounts for the cohesive contact force and Ag for increased collisional dissipation due to cohesion. Hence, a new physical picture is presented, namely, Bo$_{G}$ dominates in dense flows, where force chains drive momentum transfer, and Ag dominates in dilute systems, where the dissipative collisions dominate momentum transfer. Apparent discrepancies with past treatments are resolved.