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Roughness-dependent clogging of particle suspensions flowing into a constriction

Chiao-Peng Hsu, Hasan Emre Baysal, Görel Wirenborn, Gustaf Mårtensson, Lisa Prahl Wittberg, Lucio Isa

2021Soft Matter24 citationsDOIOpen Access PDF

Abstract

When concentrated particle suspensions flow into a constricting channel, the suspended particles may either smoothly flow through the constriction or jam and clog the channel. These clogging events are typically detrimental to technological processes, such as in the printing of dense pastes or in filtration, but can also be exploited in micro-separation applications. Many studies have to date focused on important parameters influencing the occurrence of clogs, such as flow velocity, particle concentration, and channel geometry. However, the investigation of the role played by the particle surface properties has surprisingly received little attention so far. Here, we study the effect of surface roughness on the clogging of suspensions of silica particles under pressure-driven flows along a microchannel presenting a constriction. We synthesize micron-sized particles with uniform surface chemistry and tunable roughness and determine the occurrence of clogging events as a function of velocity and volume fraction for a given surface topography. Our results show that there is a clear correlation between surface roughness and flow rate, indicating that rougher particles are more likely to jam at the constriction for slower flows. These findings identify surface roughness as an essential parameter to consider in the formulation of particulate suspensions for applications where clogging plays an important role.

Topics & Concepts

CloggingParticle (ecology)Materials scienceSurface roughnessConstrictionSurface finishComposite materialGeologyEndocrinologyMedicineOceanographyArchaeologyHistoryLattice Boltzmann Simulation StudiesSurface Modification and SuperhydrophobicityPickering emulsions and particle stabilization
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