Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume -, Issue -, Pages -Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.est.3c02027
Keywords
nonbuoyant; particle threshold; Shields parameter; critical shear stress; hydraulic roughness; hiding-exposure
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This research demonstrates that the Shields diagram is applicable for predicting incipient motion thresholds of both native sediments and microplastic particles. The study investigates various regular and irregular microplastic particle groups in a flume and combines data from the literature for analysis. A new framework is proposed to account for the effects of static friction, hydraulic roughness, and hiding-exposure on predicting incipient motion conditions for foreign particles, reconciling them with the Shields diagram.
This researchnewly shows that, when suitably generalized,the Shields diagram (as commonly used for sediments) can predict incipientmotion thresholds for both native sediments and foreign (microplastic)particles alike. Incipient motion conditions for 57 regular (spheres,cylinders,disks, square plates, cubes, square prisms, rectangular prisms, tetrahedrons,and fibers) and eight irregular microplastic particle groups, havingvarious sizes and densities, are investigated in a circular flume.The present data set is combined with additional data from the literatureand systematically analyzed. A new framework is developed for predictingincipient motion conditions for foreign particles, accounting forvariations in static friction, hydraulic roughness, and hiding-exposureeffects. Via this framework, incipient motion conditions for microplasticparticles lying on a sediment bed are, for the first time, reconciledwith the classical Shields diagram.
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