Recurrence dynamics of particulate transport with reversible blockage: From a single channel to a bundle of coupled channels

Abstract: We model a particulate flow of constant velocity through confined geometries, ranging from a single channel to a bundle of Nc identical coupled channels, under conditions of reversible blockage. Quantities of interest include the exiting particle flux (or throughput) and the probability that the bundle is open. For a constant entering flux, the bundle evolves through a transient regime to a steady state. We present analytic solutions for the stationary properties of a single channel with capacity N ≤ 3 and for… Show more

“…Our consideration of grid-like structures may be viewed as an extension to the geometry previously studied in works such as [24][25][26] where Sauret et al (2018) follow similar calculations presented by Talbot & Barré (2015) and confirm their results by experiments. We apply our model to this simpler geometry of parallel channels and show that it agrees with these previous works.…”

Multi-scale model of clogging in microfluidic devices with grid-like geometries

“…Our consideration of grid-like structures may be viewed as an extension to the geometry previously studied in works such as [24][25][26] where Sauret et al (2018) follow similar calculations presented by Talbot & Barré (2015) and confirm their results by experiments. We apply our model to this simpler geometry of parallel channels and show that it agrees with these previous works.…”

Multi-scale model of clogging in microfluidic devices with grid-like geometries

“…Microfluidic devices play an important role in various disciplines, with applications ranging from inkjet printing, cooling of integrated circuits, mimicking porous structures in studies of soil improvement, and biomedical instruments [1,2,3,4,5]. In some cases, clogging hinders the performance of these microfluidic devices or decreases their efficiency in transporting particles [6]. For instance, in microfluidic cell sorters that sort sickle red blood cells based on their deformability, clogging leads to greater unpredictability in the device behavior [7].…”

“…We acknowledge that this assumption may not be appropriate in other contexts, such as the gradual aggregation of small particles that progressively occlude and eventually clog a channel. For example, such gradual clogging is the subject of the model of Talbot and Barré [6] who consider a more general particle transit time instead of limiting their work to instantaneous clogging.…”

Multiscale Model of Clogging in Microfluidic Devices with Grid-Like Geometries

Chaotic characteristic analysis of short-term wind speed time series with different time scales