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Influence of the solid fraction on the clogging by bridging of suspensions in constricted channels

Nathan Vani, Sacha Escudier, Alban Sauret

2022Soft Matter31 citationsDOI

Abstract

, through the formation of a stable arch of particles at a constriction that hinders the transport of particles downstream of the clog. To characterize the role of the volume fraction of the suspension on the clogging dynamics, we study the flow of particulate suspensions through 3D-printed millifluidic devices. We systematically characterize the bridging of non-Brownian particles in a quasi-bidimensional system in which we directly visualize and track the particles as they flow and form arches at a constriction. We report the conditions for clogging by bridging when varying the constriction width to particle diameter ratio for different concentrations of the particles in suspension. We then discuss our results using a stochastic model to rationalize the influence of solid fraction on the probability of clogging. Understanding the mechanisms and conditions of clog formation is an important step for optimizing engineering design and developing more reliable dispensing systems.

Topics & Concepts

CloggingBridging (networking)Suspension (topology)Volume fractionMaterials scienceMechanicsNanotechnologyComposite materialComputer sciencePhysicsMathematicsHistoryArchaeologyComputer networkPure mathematicsHomotopyMicrofluidic and Bio-sensing TechnologiesLattice Boltzmann Simulation StudiesElectrowetting and Microfluidic Technologies
Influence of the solid fraction on the clogging by bridging of suspensions in constricted channels | Litcius