2013
DOI: 10.1103/physreve.87.042204
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Orifice jamming of fluid-driven granular flow

Abstract: The three-dimensional jamming of neutrally buoyant monodisperse, bidisperse, and tridisperse mixtures of particles flowing through a restriction under fluid flow has been studied. During the transient initial accumulation of particles at the restriction, a low probability of a jamming event is observed, followed by a transition to a steady-state flowing backlog of particles, where the jamming probability per particle reaches a constant. Analogous to the steady-state flow in gravity-driven jams, this results in… Show more

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Cited by 58 publications
(58 citation statements)
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“…And for small enough holes, stable arches can form and cause a clog [20]. Related behavior has been reported for the upward discharge of bubbles in an underwater silo [13], particles on a conveyor belt [14], and for disks floating on a fluid that flows through an orifice [15,16]. An important challenge is to relate all such phenomena to the velocity and density fields, which can be measured in quasi-2D [9,[21][22][23][24][25] and index-matched [26] systems.…”
Section: Introductionmentioning
confidence: 63%
“…And for small enough holes, stable arches can form and cause a clog [20]. Related behavior has been reported for the upward discharge of bubbles in an underwater silo [13], particles on a conveyor belt [14], and for disks floating on a fluid that flows through an orifice [15,16]. An important challenge is to relate all such phenomena to the velocity and density fields, which can be measured in quasi-2D [9,[21][22][23][24][25] and index-matched [26] systems.…”
Section: Introductionmentioning
confidence: 63%
“…[10,11], which happens less frequently for larger holes and is unavoidable for holes smaller than about four to five grains across. Details depend on grain shape (see, e.g., [12][13][14][15]), and similar phenomena arise in other contexts, ranging from transport in electronic [16] and particulate [17,18] systems with spatially distributed pinning sites to grains in channels and pipes [19,20], grains driven by fluid flow [21,22], and even grains with brains: pedestrians [23], traffic [24], and livestock [25]. For noncohesive compact grains, in air or vacuum, there is general agreement that clogging statistics are Poissonian [6,7,13,26,27].…”
Section: Introductionmentioning
confidence: 87%
“…The exponential decay of the avalanche size distribution has been reported in several arrangements: 2D and 3D silos [16,20,21], 2D hoppers [22,23], 2D and 3D tilted hoppers and silos [24,25], silos with the presence of obstacles [26,27], 2D silos where the particles were driven by different gravity forces [28], and fluid driven particles in 2D and 3D [29,30]. However, there are some examples where this exponential tail breaks down.…”
Section: Avalanche Size Distributionmentioning
confidence: 95%